# Define all possible option for the make command : sat make <options>
parser = src.options.Options()
parser.add_option('p', 'products', 'list2', 'products',
- _('products to configure. This option can be'
- ' passed several time to configure several products.'))
+ _('Optional: products to configure. This option accepts a comma separated list.'))
parser.add_option('o', 'option', 'string', 'option',
- _('Option to add to the make command.'), "")
-
-def get_products_list(options, cfg, logger):
- '''method that gives the product list with their informations from
- configuration regarding the passed options.
-
- :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
- :return: The list of (product name, product_informations).
- :rtype: List
- '''
- # Get the products to be prepared, regarding the options
- if options.products is None:
- # No options, get all products sources
- products = cfg.APPLICATION.products
- else:
- # if option --products, check that all products of the command line
- # are present in the application.
- products = options.products
- for p in products:
- if p not in cfg.APPLICATION.products:
- raise src.SatException(_("Product %(product)s "
- "not defined in application %(application)s") %
- { 'product': p, 'application': cfg.VARS.application} )
-
- # Construct the list of tuple containing
- # 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]))]
-
- return products_infos
+ _('Optional: Option to add to the make command.'), "")
+
def log_step(logger, header, step):
logger.write("\r%s%s" % (header, " " * 20), 3)
# 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)
- log_step(logger, header, "MAKE -j" + str(nb_proc))
- res_m = builder.make(nb_proc, make_opt_without_j)
- log_res_step(logger, res_m)
- res += res_m
+
+ nb_proc, make_opt_without_j = get_nb_proc(p_info, config, make_option)
+ log_step(logger, header, "MAKE -j" + str(nb_proc))
+ if src.architecture.is_windows():
+ res = builder.wmake(nb_proc, make_opt_without_j)
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
+ res = builder.make(nb_proc, make_opt_without_j)
+ log_res_step(logger, res)
# Log the result
if res > 0:
:rtype: str
'''
return _("The make command executes the \"make\" command in"
- " the build directory")
+ " the build directory.\nexample:\nsat make SALOME-master "
+ "--products Python,KERNEL,GUI")
def run(args, runner, logger):
'''method that is called when salomeTools is called with make parameter.
src.check_config_has_application( runner.cfg )
# Get the list of products to treat
- products_infos = get_products_list(options, runner.cfg, logger)
+ products_infos = src.product.get_products_list(options, runner.cfg, logger)
# Print some informations
logger.write(_('Executing the make command in the build '