FreeCalypso > hg > tcs211-c139
view g23m/system/busyb/tools/header_gen.pl @ 17:45adf5e17b9d
pdt_2092 configuration compiles
author | Space Falcon <falcon@ivan.Harhan.ORG> |
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date | Sun, 06 Sep 2015 02:55:33 +0000 |
parents | 509db1a7b7b8 |
children |
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# # combined script: header_gen # # consists of: # header_gen_rv_swe.pl # header_gen_rv_test_inc.pl # header_gen_rv_test_exec_level.pl # # to be invoked with: # header_gen.pl { rv_swe | rv_test_inc | rv_test_exec_level } other-params # # details see below # use strict; #use warnings; # Define and set global variables. my $selector = shift; print $selector . " "; my $header_file = shift; print $header_file; my $guard_string = "\U__${selector}_H__"; # # Function used to open and write the header to the include file. # sub open_header { # open the file open (HDR,">$header_file")||die "can't open $header_file \n"; # print guard pattern print HDR "#ifndef $guard_string\n"; print HDR "#define $guard_string\n\n"; } # # Function used to write the footer and close the include file. # sub close_footer { # end guard pattern print HDR "\n#endif /* $guard_string */\n"; # close the file close HDR; } if ($selector eq 'rv_swe') { open_header(); foreach (@ARGV) { #look for the following pattern if(/^(SWE_)?(\w+)_STATE=(\d+)/) { if ($3 == 1 || $3 == 2) { #print everything print HDR "#define RVM_${2}_SWE\n"; } } } close_footer(); } elsif ($selector eq 'rv_test_inc') { # # header_gen_rv_test_inc.pl : tool to generate header files # # Short spec: # # This tool generates one header file using the information from the command # line. The expected fommand line form is: # # header-file-name other-parameters # # where header-file-name is the filename of the include file to be generated # (including path components). # other-parameters parameters define an association of names to values. each # association has the form: # # name=value # # name may have an prefix SWE_, which is then ignored. name must have the # suffix _STATE, otherwise this particular association is ignored. # only the component between SWE_ and _STATE gets considered. value must # be 2, otherwise this particular association is ignored. # # The tool generates from the accepted (not ignored) a list of defines. # the identifiers are the considered part of the other-parameters, but have # the prefix TEST_ and suffix _SWE. The values they define start with 1, # increasing. # the order of the parameters is not important. However, it must be the same # as of the tool header_gen_rv_test_exec_level.pl (see there). # Conveniently both tools should be invoked with the same other-parameters. # open_header(); my $counter = 1; foreach (@ARGV) { #look for the following pattern if(/^(SWE_)?(\w+)_STATE=(\d+)/) { if ($3 == 2) { print HDR "#define TEST_${2}_SWE ($counter)\n"; $counter++; } } } close_footer(); } elsif ($selector eq 'rv_test_exec_level') { # # header_gen_rv_test_exec_level.pl : tool to generate header files # # Short spec: # # This tool generates one header file using the information from the command # line. The expected fommand line form is: # # header-file-name other-parameters # # where header-file-name is the filename of the include file to be generated # (including path components). # other-parameters parameters define an association of names to values. each # association has the form: # # name=value # # name may have an prefix SWE_, which is then ignored. name must have the # suffix _STATE, otherwise this particular association is ignored. # only the component between SWE_ and _STATE gets considered. value must # be 2, otherwise this particular association is ignored. # # the contents of the header file will be of the ANSI C language. # it is a the definition of an array: # static char TEST_LEVEL_LCD [TEST_LEVEL_LCD_LEN][TEST_LEVEL_LCD_STR_LEN] = # having 0-terminated strings as components. # the values of TEST_LEVEL_LCD_LEN and TEST_LEVEL_LCD_STR_LEN and the elements # of the array depend on the parameters: # TEST_LEVEL_LCD_LEN is the number of considered (or not ignored) # other-parameters PLUS 1. # TEST_LEVEL_LCD_STR_LEN is the length of the strings. various rules apply, # e.g. for 0 termination (but at last, it will get the value of 15!). # see below and/or ask a ANSI C guru. # the strings have the form: running index," - ", considered name component # (max 8 chars), filling blanks (up to the final length) # the running index use 3 characters, i.e. no more than 999 considered indexes # are allowed. this is no problem for the time being. # Thus we can compute the max length: 3+3+8+1=15 (running index, delimiter, # name, string delimiter \0). # There is one special initial string. it is always placed at index 0 and has # the contents " TEST LEVEL " plus '\0'. # the 2 spaces at the beginning are legacy, I guess they are just to have a # left alignment with the first 9 indexes (those with 1 figure indexes) # if (@ARGV > 999) { die "cannot stand it - too many arguments"; } open_header(); my $max_name_len = 8; my @local_args; foreach (@ARGV) { if(/^(SWE_)?(\w+)_STATE=(\d+)/ && $3 == 2) { push @local_args, substr($2, 0, $max_name_len); } } print HDR "/* RV TEST TEST_LEVEL PARAMETER */\n"; print HDR "#define TEST_LEVEL_LCD_LEN (".(@local_args+1).")\n"; print HDR "#define TEST_LEVEL_LCD_STR_LEN (".(3+3+$max_name_len+1).")\n\n"; print HDR "static char TEST_LEVEL_LCD [TEST_LEVEL_LCD_LEN][TEST_LEVEL_LCD_STR_LEN] = {\n"; # the literal constant 1 represents the single char at the beginning ('T') # this is due to the fact that normally the first 3 chars are reserved for the # running index my @print_lines = ("\"" . sprintf(" %-*s", 1+3+$max_name_len, "TEST LEVEL") . "\""); my $counter = 1; foreach (@local_args) { push @print_lines, "\"" . sprintf("%3d - %-*s", $counter, $max_name_len, $_) . "\""; $counter++; } print HDR " ", join ",\n ", @print_lines; print HDR "};\n"; close_footer(); } else { die "$selector not recognized"; }