print "/* This file is perl-generated, of course */\n\n";
-print "#include <stdio.h>\n";
-print "#include <gras.h>\n\n";
+print "#include \"gras.h\"\n\n";
-print "GRAS_LOG_NEW_DEFAULT_SUBCATEGORY(structs,test,\"Logs about the gigantic struct test\");\n\n";
+print "XBT_LOG_NEW_DEFAULT_SUBCATEGORY(structs,test,\"Logs about the gigantic struct test\");\n\n";
print "#define READ 0\n#define WRITE 1\n#define RW 2\n\n";
-print "gras_error_t write_read(gras_datadesc_type_t type,void *src, void *dst, gras_socket_t *sock, int direction);\n\n";
+print "void write_read(gras_datadesc_type_t type,void *src, void *dst, gras_socket_t *sock, int direction);\n\n";
my ($i,$j,$k,$l);
my $max=scalar @types;
-my $maxl=0; # set it to "$max-1" to do 2401 tests (takes for ever to compile)
-for $i (0..$max-1) { for $j (0..$max-1) { for $k (0..$max-1) { for $l (0..$maxl) {
+# Those max variables can be used to tune how much test you are ready to do.
+# But WARNING! changing them naturally invalidate any existing data file.
+my $max_i=$max-1;
+my $max_j=0;
+my $max_k=$max-1;
+my $max_l=0;
+for $i (0..$max_i) { for $j (0..$max_j) { for $k (0..$max_k) { for $l (0..$max_l) {
print "GRAS_DEFINE_TYPE(".$abrev[$i].$abrev[$j].$abrev[$k].$abrev[$l].",".
"struct ".$abrev[$i].$abrev[$j].$abrev[$k].$abrev[$l]." { ".
$types[$i]." a; ".
}}}}
# print "\n#define test(a) do {if (!(a)) { failed = 1; ERROR1(\"%s failed\",#a);}} while (0)\n";
- print "\n#define test(a) gras_assert(a)\n";
+ print "\n#define test(a) xbt_assert(a)\n";
-print "\ngras_error_t test_structures(gras_socket_t *sock, int direction);\n";
-print "\ngras_error_t test_structures(gras_socket_t *sock, int direction) {\n";
-print " gras_error_t errcode;\n";
-for $i (0..$max-1) { for $j (0..$max-1) { for $k (0..$max-1) { for $l (0..$maxl) {
+print "void test_structures(gras_socket_t *sock, int direction);\n";
+print "void test_structures(gras_socket_t *sock, int direction) {\n";
+for $i (0..$max_i) { for $j (0..$max_j) { for $k (0..$max_k) { for $l (0..$max_l) {
my $struct=$abrev[$i].$abrev[$j].$abrev[$k].$abrev[$l];
print " struct $struct my_$struct = {".$val[$i]."+(".$types[$i].")1,"
.$val[$j]."+(".$types[$j].")2,"
.$val[$l]."+(".$types[$l].")4}, my_${struct}2;\n";
}}}}
-print " INFO0(\"---- Test on all possible struct having 3 fields (".($max*$max*$max*($maxl+1))." structs) ----\");\n";
-for $i (0..$max-1) { for $j (0..$max-1) { for $k (0..$max-1) { for $l (0..$maxl) {
+print " INFO0(\"---- Test on all possible struct having 3 fields (".(($max_i+1)*($max_j+1)*($max_k+1)*($max_l+1))." structs) ----\");\n";
+for $i (0..$max_i) { for $j (0..$max_j) { for $k (0..$max_k) { for $l (0..$max_l) {
my $struct=$abrev[$i].$abrev[$j].$abrev[$k].$abrev[$l];
- print " TRY(write_read(gras_datadesc_by_symbol($struct), &my_$struct, &my_${struct}2, sock,direction));\n";
+ print " write_read(gras_datadesc_by_symbol($struct), &my_$struct, &my_${struct}2, sock,direction);\n";
print " if (direction == READ || direction == RW) {\n";
print " int failed = 0;\n";
print " test(my_$struct.a == my_${struct}2.a);\n";
print " if (!failed) VERB0(\"Passed $struct\");\n";
print " }\n";
}}}}
- print " return no_error;\n";
print "}\n";
;