:param options Options: The Options instance that stores the commands
arguments
:param cfg Config: The global configuration
- :param logger Logger: The logger instance to use for the display and logging
+ :param logger Logger: The logger instance to use for the display and
+ logging
:return: The list of (product name, product_informations).
:rtype: List
'''
# the products name and their definition
products_infos = src.product.get_products_infos(products, cfg)
- products_infos = [pi for pi in products_infos if not(src.product.product_is_native(pi[1]) or src.product.product_is_fixed(pi[1]))]
+ products_infos = [pi for pi in products_infos if not(
+ src.product.product_is_native(pi[1]) or
+ src.product.product_is_fixed(pi[1]))]
return products_infos
logger.write(header, 3)
logger.write("\n", 4, False)
logger.flush()
-
+
+ # Do nothing if he product is not compilable
+ if ("properties" in p_info and "compilation" in p_info.properties and
+ p_info.properties.compilation == "no"):
+ log_step(logger, header, "ignored")
+ logger.write("\n", 3, False)
+ return 0
+
# Instantiate the class that manages all the construction commands
# like cmake, make, make install, make test, environment management, etc...
builder = src.compilation.Builder(config, logger, p_info)
# Execute buildconfigure, configure if the product is autotools
# Execute cmake if the product is cmake
+ len_end_line = 20
res = 0
if not src.product.product_has_script(p_info):
nb_proc, make_opt_without_j = get_nb_proc(p_info, config, make_option)
res_m = builder.make(nb_proc, make_opt_without_j)
log_res_step(logger, res_m)
res += res_m
+ else:
+ scrit_path_display = src.printcolors.printcLabel(p_info.compil_script)
+ log_step(logger, header, "SCRIPT " + scrit_path_display)
+ len_end_line += len(scrit_path_display)
+ res_s = builder.do_script_build(p_info.compil_script)
+ log_res_step(logger, res_s)
+ res += res_s
# Log the result
if res > 0:
- logger.write("\r%s%s" % (header, " " * 20), 3)
+ logger.write("\r%s%s" % (header, " " * len_end_line), 3)
logger.write("\r" + header + src.printcolors.printcError("KO"))
logger.write("==== %(KO)s in make of %(name)s \n" %
{ "name" : p_name , "KO" : src.printcolors.printcInfo("ERROR")}, 4)
logger.flush()
else:
- logger.write("\r%s%s" % (header, " " * 20), 3)
+ logger.write("\r%s%s" % (header, " " * len_end_line), 3)
logger.write("\r" + header + src.printcolors.printcSuccess("OK"))
logger.write("==== %s \n" % src.printcolors.printcInfo("OK"), 4)
logger.write("==== Make of %(name)s %(OK)s \n" %
# check that the command has been called with an application
src.check_config_has_application( runner.cfg )
- # Get the list of products to threat
+ # Get the list of products to treat
products_infos = get_products_list(options, runner.cfg, logger)
# Print some informations
- logger.write(_('Executing the make command in the build directories of the application %s\n') %
+ logger.write(_('Executing the make command in the build '
+ 'directories of the application %s\n') %
src.printcolors.printcLabel(runner.cfg.VARS.application), 1)
info = [(_("BUILD directory"),
# Call the function that will loop over all the products and execute
# the right command(s)
+ if options.option is None:
+ options.option = ""
res = make_all_products(runner.cfg, products_infos, options.option, logger)
# Print the final state