Source

z3 / src / test / main.cpp

#include<iostream>
#include<time.h>
#include<string>
#include<cstring>
#include"util.h"
#include"trace.h"
#include"debug.h"
#include"timeit.h"
#include"warning.h"
#include "memory_manager.h"

//
// Unit tests fail by asserting.
// If they return, we assume the unit test succeeds
// and print "PASS" to indicate success.
// 

#define TST(MODULE) {				\
    std::string s("test ");			\
    s += #MODULE;				\
    void tst_##MODULE();			\
    if (do_display_usage)                       \
        std::cout << #MODULE << "\n";           \
    for (int i = 0; i < argc; i++) 		\
	if (strcmp(argv[i], #MODULE) == 0) {	\
            enable_trace(#MODULE);              \
	    enable_debug(#MODULE);		\
	    timeit timeit(true, s.c_str());     \
	    tst_##MODULE();			\
            std::cout << "PASS" << std::endl;   \
	}					\
}

#define TST_ARGV(MODULE) {                              \
    std::string s("test ");                             \
    s += #MODULE;                                       \
    void tst_##MODULE(char** argv, int argc, int& i);   \
    if (do_display_usage)                               \
        std::cout << #MODULE << "\n";                   \
    for (int i = 0; i < argc; i++)                      \
	if (strcmp(argv[i], #MODULE) == 0) {            \
            enable_trace(#MODULE);                      \
	    enable_debug(#MODULE);                      \
	    timeit timeit(true, s.c_str());             \
	    tst_##MODULE(argv, argc, i);                \
            std::cout << "PASS" << std::endl;           \
	}                                               \
}

void error(const char * msg) {
    std::cerr << "Error: " << msg << "\n";
    std::cerr << "For usage information: test /h\n";
    exit(1);
}

void display_usage() {
    std::cout << "Z3 unit tests [version 1.0]. (C) Copyright 2006 Microsoft Corp.\n";
    std::cout << "Usage: test [options] [module names]\n";
    std::cout << "\nMisc.:\n";
    std::cout << "  /h          prints this message.\n";
    std::cout << "  /v:level    be verbose, where <level> is the verbosity level.\n";
    std::cout << "  /w          enable warning messages.\n";
#if defined(Z3DEBUG) || defined(_TRACE)
    std::cout << "\nDebugging support:\n";
#endif
#ifdef _TRACE
    std::cout << "  /tr:tag     enable trace messages tagged with <tag>.\n";
#endif
#ifdef Z3DEBUG
    std::cout << "  /dbg:tag    enable assertions tagged with <tag>.\n";
#endif
}

void parse_cmd_line_args(int argc, char ** argv, bool& do_display_usage) {
    int i = 1;
    while (i < argc) {
	char * arg = argv[i];    

	if (arg[0] == '-' || arg[0] == '/') {
	    char * opt_name = arg + 1;
	    char * opt_arg  = 0;
	    char * colon    = strchr(arg, ':');
	    if (colon) {
		opt_arg = colon + 1;
		*colon  = 0;
	    }
	    if (strcmp(opt_name, "h") == 0 ||
                strcmp(opt_name, "?") == 0) {
		display_usage();
                do_display_usage = true;
                return;
	    }
	    else if (strcmp(opt_name, "v") == 0) {
		if (!opt_arg)
		    error("option argument (/v:level) is missing.");
		long lvl = strtol(opt_arg, 0, 10);
		set_verbosity_level(lvl);
	    }
	    else if (strcmp(opt_name, "w") == 0) {
                enable_warning_messages(true);
	    }
#ifdef _TRACE
	    else if (strcmp(opt_name, "tr") == 0) {
		if (!opt_arg)
		    error("option argument (/tr:tag) is missing.");
		enable_trace(opt_arg);
	    }
#endif
#ifdef Z3DEBUG
	    else if (strcmp(opt_name, "dbg") == 0) {
		if (!opt_arg)
		    error("option argument (/dbg:tag) is missing.");
		enable_debug(opt_arg);
	    }
#endif
	}
	i++;
    }
}


int main(int argc, char ** argv) {
    memory::initialize(0);
    bool do_display_usage = false;
    parse_cmd_line_args(argc, argv, do_display_usage);
    TST(random);
    TST(vector);
    TST(symbol_table);
    TST(region);
    TST(symbol);
    TST(heap);
    TST(hashtable);
    TST(rational);
    TST(inf_rational);
    TST(ast);
    TST(optional);
    TST(bit_vector);
    TST(string_buffer);
    TST(map);
    TST(diff_logic);
    TST(uint_set);
    TST_ARGV(expr_rand);
    TST(ini_file);
    TST(list);
    TST(small_object_allocator);
    TST(timeout);
    TST(proof_checker);
    TST(simplifier);
    TST(bv_simplifier_plugin);
    TST(bit_blaster);
    TST(var_subst);
    TST(simple_parser);
    TST(api);
    TST(old_interval);
    TST(interval_skip_list);
    TST(no_overflow);
    TST(memory);
    TST(get_implied_equalities);
    TST(arith_simplifier_plugin);
    TST(matcher);
    TST(datalog_parser);
    TST_ARGV(datalog_parser_file);
    TST(object_allocator);
    TST(mpz);
    TST(mpq);
    TST(mpf);
    TST(total_order);
    TST(dl_table);
    TST(dl_context);
    TST(dl_smt_relation);
    TST(dl_query);
    TST(dl_util);
    TST(dl_product_relation);
    TST(dl_relation);
    TST(imdd);
    TST(parray);
    TST(stack);
    TST(escaped);
    TST(buffer);
    TST(chashtable);
    TST(ex);
    TST(nlarith_util);
    TST(api_bug);
    TST(arith_rewriter);
    TST(check_assumptions);
    TST(smt_context);
    TST(theory_dl);
    TST(model_retrieval);
    TST(factor_rewriter);
    TST(smt2print_parse);
    TST(substitution);
    TST(polynomial);
    TST(upolynomial);
    TST(algebraic);
    TST(polynomial_factorization);
    TST(prime_generator);
    TST(permutation);
    TST(nlsat);
    TST(ext_numeral);
    TST(interval);
    TST(quant_solve);
    TST(f2n);
    TST(hwf);
    TST(trigo);
    TST(bits);
    TST(mpbq);
    TST(mpfx);
    TST(mpff);
    TST(horn_subsume_model_converter);
    TST(model2expr);
}

void initialize_mam() {}
void finalize_mam() {}