From c8cad6af29bfaf4793c33762bd830fb6e36f8a70 Mon Sep 17 00:00:00 2001
From: Paul Bakker
Date: Wed, 25 May 2011 11:35:09 +0000
Subject: [PATCH] - Upgraded to version 1.6.1 of FCTX
---
tests/fct.h | 5647 ++++++++++++++++++++++++++++++++++++---------------
1 file changed, 3959 insertions(+), 1688 deletions(-)
diff --git a/tests/fct.h b/tests/fct.h
index f6c125107..c49abdaea 100644
--- a/tests/fct.h
+++ b/tests/fct.h
@@ -1,1688 +1,3959 @@
-/*
-====================================================================
-Copyright (c) 2008 Ian Blumel. All rights reserved.
-
-FCT (Fast C Test) Unit Testing Framework
-
-Copyright (c) 2008, Ian Blumel (ian.blumel@gmail.com)
-All rights reserved.
-
-This license is based on the BSD License.
-
-Redistribution and use in source and binary forms, with or without
-modification, are permitted provided that the following conditions are
-met:
-
- * Redistributions of source code must retain the above copyright
- notice, this list of conditions and the following disclaimer.
-
- * Redistributions in binary form must reproduce the above copyright
- notice, this list of conditions and the following disclaimer in
- the documentation and/or other materials provided with the
- distribution.
-
- * Neither the name of, Ian Blumel, nor the names of its
- contributors may be used to endorse or promote products derived
- from this software without specific prior written permission.
-
-THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
-IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
-TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
-PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER
-OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
-EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
-PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
-PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
-LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
-NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
-SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
-====================================================================
-
-File: fct.h
-*/
-
-#if !defined(FCT_INCLUDED__IMB)
-#define FCT_INCLUDED__IMB
-
-#define FCT_VERSION_STR "1.0.2"
-#define FCT_VERSION_MAJOR 1
-#define FCT_VERSION_MINOR 0
-#define FCT_VERSION_MICRO 2
-
-/* Define this to remove unneeded WIN32 warnings. We will undefine this at
-the end of the file so as not to interfere with your build. */
-#if defined(WIN32) && !defined(_CRT_SECURE_NO_WARNINGS)
-# define _CRT_SECURE_NO_WARNINGS
-#endif
-
-#include
-#include
-#include
-#include
-#include
-#include
-#include
-#include
-
-#define FCT_MAX_NAME 256
-#define FCT_MAX_LOG_LINE 256
-
-#define nbool_t int
-#define FCT_TRUE 1
-#define FCT_FALSE 0
-
-/* Forward declarations. The following forward declarations are required
-because there is a inter-relationship between certain objects that
-just can not be untwined. */
-typedef struct _fct_logger_i fct_logger_i;
-typedef struct _fct_standard_logger_t fct_standard_logger_t;
-typedef struct _fct_minimal_logger_t fct_minimal_logger_t;
-typedef struct _fctchk_t fctchk_t;
-typedef struct _fct_test_t fct_test_t;
-typedef struct _fct_ts_t fct_ts_t;
-typedef struct _fctkern_t fctkern_t;
-
-/* Forward declare some functions used throughout. */
-static fct_standard_logger_t *
-fct_standard_logger__new(void);
-
-static void
-fct_logger__del(fct_logger_i *logger);
-
-static void
-fct_logger__on_cndtn(fct_logger_i *self, fctchk_t const *chk);
-
-static void
-fct_logger__on_test_start(fct_logger_i *logger, fct_test_t const *test);
-
-static void
-fct_logger__on_test_end(fct_logger_i *logger, fct_test_t const *test);
-
-static void
-fct_logger__on_test_suite_start(fct_logger_i *logger, fct_ts_t const *ts);
-
-static void
-fct_logger__on_test_suite_end(fct_logger_i *logger, fct_ts_t const *ts);
-
-static void
-fct_logger__on_fct_start(fct_logger_i *logger, fctkern_t const *kern);
-
-static void
-fct_logger__on_fct_end(fct_logger_i *logger, fctkern_t const *kern);
-
-
-
-/* Explicitly indicate a no-op */
-#define fct_pass()
-
-#define fct_unused(x) ((void) (x));
-
-/* This is just a little trick to let me put comments inside of macros. I
-really only want to bother with this when we are "unwinding" the macros
-for debugging purposes. */
-#if defined(FCT_CONF_UNWIND)
-# define _fct_cmt(string) {char*_=string;}
-#else
-# define _fct_cmt(string)
-#endif
-
-/*
---------------------------------------------------------
-UTILITIES
---------------------------------------------------------
-*/
-
-/* Utility for truncated, safe string copies. */
-static void
-fct_safe_str_cpy(char *dst, char const *src, size_t num)
-{
- assert( dst != NULL );
- assert( src != NULL );
- assert( num > 0 );
- strncpy(dst, src, num);
- dst[num-1] = '\0';
-}
-
-/* Isolate the snprintf implemenation. */
-int
-fct_snprintf(char *buffer, size_t buffer_len, char *format, ...)
-{
- int count =0;
- va_list args;
- va_start(args, format);
- count =vsnprintf(buffer, buffer_len, format, args);
- va_end(args);
- return count;
-}
-
-/* A very, very simple "filter". This just compares the supplied prefix
-against the test_str, to see if they both have the same starting
-characters. If they do we return true, otherwise we return false. If the
-prefix is a blank string or NULL, then it will return FCT_TRUE.*/
-static nbool_t
-fct_filter_pass(char const *prefix, char const *test_str)
-{
- nbool_t is_match = FCT_FALSE;
- char const *prefix_p;
- char const *test_str_p;
-
- /* If you got nothing to test against, why test? */
- assert( test_str != NULL );
-
- /* When the prefix is NULL or blank, we always return FCT_TRUE. */
- if ( prefix == NULL || prefix[0] == '\0' )
- {
- return FCT_TRUE;
- }
-
- /* Iterate through both character arrays at the same time. We are
- going to play a game and see if we can beat the house. */
- for ( prefix_p = prefix, test_str_p = test_str;
- *prefix_p != '\0' && *test_str_p != '\0';
- ++prefix_p, ++test_str_p )
- {
- is_match = *prefix_p == *test_str_p;
- if ( !is_match )
- {
- break; /* Quit the first time we don't match. */
- }
- }
-
- /* If the iterator for the test_str is pointing at the null char, and
- the iterator for the prefix string is not, then the prefix string is
- larger than the actual test string, and therefore we failed to pass the
- filter. */
- if ( *test_str_p == '\0' && *prefix_p != '\0' )
- {
- return FCT_FALSE;
- }
-
- /* is_match will be set to the either FCT_TRUE if we kicked of the loop
- early because our filter ran out of characters or FCT_FALSE if we
- encountered a mismatch before our filter ran out of characters. */
- return is_match;
-}
-
-/* Returns true if two reals are equal. */
-nbool_t
-fct_real_eq(double v1, double v2)
-{
- return (nbool_t)(fabs(v1 - v2) < DBL_EPSILON);
-}
-
-/*
---------------------------------------------------------
-TIMER
---------------------------------------------------------
-*/
-
-typedef struct _fct_timer_t fct_timer_t;
-struct _fct_timer_t {
- clock_t start;
- clock_t stop;
- double duration;
-};
-
-
-static void
-fct_timer__init(fct_timer_t *timer) {
- assert(timer != NULL);
- memset(timer, 0, sizeof(fct_timer_t));
-}
-
-
-static void
-fct_timer__start(fct_timer_t *timer) {
- assert(timer != NULL);
- timer->start = clock();
-}
-
-
-static void
-fct_timer__stop(fct_timer_t *timer) {
- assert(timer != NULL);
- timer->stop = clock();
- timer->duration = (double) (timer->stop - timer->start) / CLOCKS_PER_SEC;
-}
-
-
-/* Returns the time in seconds. */
-static double
-fct_timer__duration(fct_timer_t *timer) {
- assert( timer != NULL );
- return timer->duration;
-}
-
-
-/*
---------------------------------------------------------
-GENERIC LIST
---------------------------------------------------------
-*/
-
-/* For now we will just keep it at a linear growth rate. */
-#define FCT_LIST_GROWTH_FACTOR 2
-
-/* Starting size for the list, to keep it simple we will start
-at a reasonable size. */
-#define FCT_LIST_START_SIZE 2
-
-/* Helper macros for quickly iterating through a list. You should be able
-to do something like,
-
- NLIST_FOREACH_BGN(fct_logger_i*, logger, my_list)
- {
- fct_logger__on_blah(logger);
- }
- NLIST_FOREACH_END();
-
-*/
-#define NLIST_FOREACH_BGN(Type, Var, List)\
-{\
- if ( List != NULL ) {\
- size_t item_i##Var;\
- size_t num_items##Var = nlist__size(List);\
- for( item_i##Var =0; item_i##Var != num_items##Var; ++item_i##Var )\
- {\
- Type Var = (Type) nlist__at((List), item_i##Var);
-
-#define NLIST_FOREACH_END() }}}
-
-/* Used to manage a list of loggers. This works mostly like
-the STL vector, where the array grows as more items are
-appended. */
-typedef struct _nlist_t nlist_t;
-struct _nlist_t
-{
- /* Item's are stored as pointers to void. */
- void **itm_list;
-
- /* Indicates the number of element's in the array. */
- size_t avail_itm_num;
-
- /* Indicates the number of actually elements in the array. */
- size_t used_itm_num;
-};
-
-static nlist_t *
-nlist_new(void)
-{
- nlist_t *list = (nlist_t*)calloc(1, sizeof(nlist_t));
- assert( list != NULL && "memory check");
-
- list->itm_list = (void**)malloc(sizeof(void*)*FCT_LIST_START_SIZE);
- assert( list->itm_list != NULL && "memory check");
-
- list->avail_itm_num =FCT_LIST_START_SIZE;
- list->used_itm_num =0;
- return list;
-}
-
-typedef void (*on_del_t)(void*);
-
-/* Cleans up list, and applies `on_del` to each item in the list.
-If on_del is NULL, it will not be applied. If `list` is NULL this
-function does nothing. */
-static void
-nlist__del(nlist_t *list, on_del_t on_del)
-{
- size_t itm_i =0;
-
- if ( list == NULL ) { return; }
-
- /* Walk through the list applying the destroy function, if it was
- defined. */
- if ( on_del != NULL )
- {
- for ( itm_i =0; itm_i != list->used_itm_num; ++itm_i )
- {
- on_del(list->itm_list[itm_i]);
- }
- }
-
- free(list->itm_list);
- free(list);
-}
-
-
-/* Returns the number of elements within the list. */
-static size_t
-nlist__size(nlist_t const *list)
-{
- assert( list != NULL );
- return list->used_itm_num;
-}
-
-
-/* Returns the item at idx, asserts otherwise. */
-static void*
-nlist__at(nlist_t const *list, size_t idx)
-{
- assert( list != NULL );
- assert( idx < list->used_itm_num );
- return list->itm_list[idx];
-}
-
-
-static void
-nlist__append(nlist_t *list, void *itm)
-{
- assert( list != NULL );
- assert( list->itm_list != NULL );
- assert( list->avail_itm_num != 0 );
-
- /* If we ran out of room, then the last increment should be equal to the
- available space, in this case we need to grow a little more. */
- if ( list->used_itm_num == list->avail_itm_num )
- {
- list->avail_itm_num = list->avail_itm_num*FCT_LIST_GROWTH_FACTOR;
- list->itm_list = (void**)realloc(
- list->itm_list, sizeof(void*)*list->avail_itm_num
- );
- assert( list->itm_list != NULL && "memory check");
- }
-
- list->itm_list[list->used_itm_num] = itm;
- ++(list->used_itm_num);
-}
-
-
-
-/*
------------------------------------------------------------
-A SINGLE CHECK
------------------------------------------------------------
-This defines a single check. It indicates what the check was,
-and where it occurred. A "Test" object will have-a bunch
-of "checks".
-*/
-
-struct _fctchk_t {
- /* This string that represents the condition. */
- char cndtn[FCT_MAX_LOG_LINE];
-
- /* These indicate where the condition occurred. */
- char file[FCT_MAX_LOG_LINE];
-
- int lineno;
-
- nbool_t is_pass;
-};
-
-#define fctchk__is_pass(_CHK_) ((_CHK_)->is_pass)
-#define fctchk__file(_CHK_) ((_CHK_)->file)
-#define fctchk__lineno(_CHK_) ((_CHK_)->lineno)
-#define fctchk__cndtn(_CHK_) ((_CHK_)->cndtn)
-
-
-static fctchk_t*
-fctchk_new(char const *cndtn, char const *file, int lineno, nbool_t is_pass)
-{
- fctchk_t *chk = NULL;
-
- assert( cndtn != NULL );
- assert( file != NULL );
- assert( lineno > 0 );
-
- chk = (fctchk_t*)calloc(1, sizeof(fctchk_t));
- assert( chk != NULL && "out of memory");
- if ( chk == NULL ) { return NULL; }
-
- fct_safe_str_cpy(chk->cndtn, cndtn, FCT_MAX_LOG_LINE);
- fct_safe_str_cpy(chk->file, file, FCT_MAX_LOG_LINE);
- chk->lineno = lineno;
-
- chk->is_pass =is_pass;
-
- return chk;
-}
-
-
-/* Cleans up a "check" object. If the `chk` is NULL, this function does
-nothing. */
-static void
-fctchk__del(fctchk_t *chk)
-{
- if ( chk == NULL ) { return; }
- free( chk );
-}
-
-
-/*
------------------------------------------------------------
-A TEST
------------------------------------------------------------
-A suite will have-a list of tests. Where each test will have-a
-list of failed and passed checks.
-*/
-
-struct _fct_test_t {
- /* List of failed and passed "checks" (fctchk_t). Two seperate
- lists make it faster to determine how many checks passed and how
- many checks failed. */
- nlist_t *failed_chks;
- nlist_t *passed_chks;
-
- /* The name of the test case. */
- char name[FCT_MAX_NAME];
-};
-
-#define fct_test__name(_TEST_) ((_TEST_)->name)
-
-static fct_test_t*
-fct_test_new(char const *name) {
- fct_test_t *test =NULL;
-
- test = (fct_test_t*)malloc(sizeof(fct_test_t));
- assert( test != NULL && "out of memory");
-
- fct_safe_str_cpy(test->name, name, FCT_MAX_NAME);
-
- test->failed_chks = nlist_new();
- test->passed_chks = nlist_new();
- assert( test->failed_chks != NULL && "out of memory");
- assert( test->passed_chks != NULL && "out of memory");
-
- return test;
-}
-
-
-static nbool_t
-fct_test__is_pass(fct_test_t const *test)
-{
- assert( test != NULL );
- return nlist__size(test->failed_chks) == 0;
-}
-
-
-static void
-fct_test__add(fct_test_t *test, fctchk_t *chk)
-{
-
- assert( test != NULL );
- assert( chk != NULL );
-
- if ( fctchk__is_pass(chk) )
- {
- nlist__append(test->passed_chks, (void*)chk);
- }
- else
- {
- nlist__append(test->failed_chks, (void*)chk);
- }
-}
-
-/* Returns the number of checks made throughout the test. */
-static int
-fct_test__chk_cnt(fct_test_t const *test)
-{
- assert( test != NULL );
- return nlist__size(test->failed_chks) + nlist__size(test->passed_chks);
-}
-
-
-static void
-fct_test__del(fct_test_t *test)
-{
- if (test == NULL ) { return; }
- nlist__del(test->passed_chks, (on_del_t)fctchk__del);
- nlist__del(test->failed_chks, (on_del_t)fctchk__del);
- free(test);
-}
-
-
-/*
------------------------------------------------------------
-TEST SUITE (TS)
------------------------------------------------------------
-*/
-
-
-/* The different types of 'modes' that a test suite can be in.
-
-While the test suite is iterating through all the tests, its "State"
-can change from "setup mode", to "test mode" to "tear down" mode.
-These help to indicate what mode are currently in. Think of it as a
-basic FSM.
-
- if the count was 0 end
- +--------->---------------------> ending_mode-----+
- | ^
- ^ |
-start | [if no more tests]
- | | |
- +-count_mode -> setup_mode -> test_mode -> teardown_mode
- ^ |
- +-----------<---------------+
-*/
-enum ts_mode {
- ts_mode_cnt, /* To setup when done counting. */
- ts_mode_setup, /* To test when done setup. */
- ts_mode_teardown, /* To ending mode, when no more tests. */
- ts_mode_test, /* To tear down mode. */
- ts_mode_ending, /* To ... */
- ts_mode_end /* .. The End. */
-};
-
-/* Types of modes the test could be in. */
-typedef enum {
- fct_test_status_SUCCESS,
- fct_test_status_FAILURE
-} fct_test_status;
-
-
-struct _fct_ts_t {
- /* For counting our 'current' test number, and the total number of
- tests. */
- int curr_test_num;
- int total_test_num;
-
- /* Keeps track of the current state of the object while it is walking
- through its "FSM" */
- enum ts_mode mode;
-
- /* The name of the test suite. */
- char name[FCT_MAX_NAME];
-
- /* List of tests that where executed within the test suite. */
- nlist_t *test_list;
-};
-
-
-#define fct_ts__is_setup_mode(ts) ((ts)->mode == ts_mode_setup)
-#define fct_ts__is_teardown_mode(ts) ((ts)->mode == ts_mode_teardown)
-#define fct_ts__is_test_mode(ts) ((ts)->mode == ts_mode_test)
-#define fct_ts__is_ending_mode(ts) ((ts)->mode == ts_mode_ending)
-#define fct_ts__is_end(ts) ((ts)->mode == ts_mode_end)
-#define fct_ts__is_cnt_mode(ts) ((ts)->mode == ts_mode_cnt)
-#define fct_ts__name(ts) ((ts)->name)
-
-
-static fct_ts_t *
-fct_ts_new(char const *name) {
- fct_ts_t *ts =NULL;
- ts = (fct_ts_t*)calloc(1, sizeof(fct_ts_t));
- assert( ts != NULL );
-
- fct_safe_str_cpy(ts->name, name, FCT_MAX_NAME);
- ts->mode = ts_mode_cnt;
-
- ts->test_list = nlist_new();
- assert( ts->test_list != NULL && "no memory");
-
- return ts;
-}
-
-static void
-fct_ts__del(fct_ts_t *ts) {
- if ( ts == NULL ) { return; }
- free(ts);
-}
-
-/* Flag a test suite as complete. It will no longer accept any more tests. */
-#define fct_ts__end(_TS_) ((_TS_)->mode == ts_mode_end)
-
-
-static nbool_t
-fct_ts__is_more_tests(fct_ts_t const *ts) {
- assert( ts != NULL );
- assert( !fct_ts__is_end(ts) );
- return ts->curr_test_num < ts->total_test_num;
-}
-
-
-/* Indicates that we have started a test case. */
-static void
-fct_ts__test_begin(fct_ts_t *ts) {
- assert( !fct_ts__is_end(ts) );
- ++(ts->curr_test_num);
-}
-
-
-/* Takes OWNERSHIP of a test object, and warehouses it for later stat
-generation. */
-static void
-fct_ts__add_test(fct_ts_t *ts, fct_test_t *test) {
- assert( ts != NULL && "invalid arg");
- assert( test != NULL && "invalid arg");
- assert( !fct_ts__is_end(ts) );
- nlist__append(ts->test_list, test);
-}
-
-
-static void
-fct_ts__test_end(fct_ts_t *ts) {
- assert( ts != NULL );
- assert( fct_ts__is_test_mode(ts) && "not in test mode, can't end!" );
-
- /* After a test has completed, move to teardown mode. */
- ts->mode = ts_mode_teardown;
-}
-
-
-/* Increments the internal count by 1. */
-static void
-fct_ts__inc_total_test_num(fct_ts_t *ts)
-{
- assert( ts != NULL );
- assert( fct_ts__is_cnt_mode(ts) );
- assert( !fct_ts__is_end(ts) );
- ++(ts->total_test_num);
-}
-
-
-/* Flags the end of the setup, which implies we are going to move into
-setup mode. You must be already in setup mode for this to work! */
-static void
-fct_ts__setup_end(fct_ts_t *ts)
-{
- assert( fct_ts__is_setup_mode(ts) );
- assert( !fct_ts__is_end(ts) );
- ts->mode = ts_mode_test;
-}
-
-
-/* This cndtn is set when we have iterated through all the tests, and
-there was nothing more to do. */
-static void
-fct_ts__ending(fct_ts_t *ts)
-{
- // We can only go from 'test-mode' to 'end-down' mode.
- assert( fct_ts__is_test_mode(ts) );
- assert( !fct_ts__is_end(ts) );
- ts->mode = ts_mode_ending;
-}
-
-
-/* Flags the end of the teardown, which implies we are going to move
-into setup mode (for the next 'iteration'). */
-static void
-fct_ts__teardown_end(fct_ts_t *ts)
-{
- assert( fct_ts__is_teardown_mode(ts) );
- assert( !fct_ts__is_end(ts) );
- /* We have to decide if we should keep on testing by moving into tear down
- mode or if we have reached the real end and should be moving into the
- ending mode. */
- if ( fct_ts__is_more_tests(ts) ) {
- ts->mode = ts_mode_setup;
- }
- else {
- ts->mode = ts_mode_ending;
- }
-}
-
-
-/* Flags the end of the counting, and proceeding to the first setup.
-Consider the special case when a test suite has NO tests in it, in
-that case we will have a current count that is zero, in which case
-we can skip right to 'ending'. */
-static void
-fct_ts__cnt_end(fct_ts_t *ts)
-{
- assert( ts != NULL );
- assert( fct_ts__is_cnt_mode(ts) );
- assert( !fct_ts__is_end(ts) );
- if (ts->total_test_num == 0 ) {
- ts->mode = ts_mode_ending;
- }
- else {
- ts->mode = ts_mode_setup;
- }
-}
-
-
-static nbool_t
-fct_ts__is_test_cnt(fct_ts_t const *ts, int test_num)
-{
- assert( ts != NULL );
- assert( 0 <= test_num );
- assert( test_num < ts->total_test_num );
- assert( !fct_ts__is_end(ts) );
-
- /* As we roll through the tests we increment the count. With this
- count we can decide if we need to execute a test or not. */
- return test_num == ts->curr_test_num;
-}
-
-
-/* Returns the # of tests on the FCT TS object. This is the actual
-# of tests executed. */
-static int
-fct_ts__tst_cnt(fct_ts_t const *ts)
-{
- assert( ts != NULL );
- assert( !fct_ts__is_end(ts) );
- return nlist__size(ts->test_list);
-}
-
-
-/* Returns the # of tests in the TS object that passed. */
-static int
-fct_ts__tst_cnt_passed(fct_ts_t const *ts)
-{
- int tally =0;
-
- assert( ts != NULL );
- assert( !fct_ts__is_end(ts) );
-
- NLIST_FOREACH_BGN(fct_test_t*, test, ts->test_list)
- {
- if ( fct_test__is_pass(test) )
- {
- tally += 1;
- }
- }
- NLIST_FOREACH_END();
- return tally;
-}
-
-
-/* Returns the # of checks made throughout a test suite. */
-static int
-fct_ts__chk_cnt(fct_ts_t const *ts)
-{
- int tally =0;
-
- assert( ts != NULL );
-
- NLIST_FOREACH_BGN(fct_test_t *, test, ts->test_list)
- {
- tally += fct_test__chk_cnt(test);
- }
- NLIST_FOREACH_END();
- return tally;
-}
-
-
-/*
---------------------------------------------------------
-FCT KERNAL
---------------------------------------------------------
-
-The "fctkern" is a singleton that is defined throughout the
-system.
-*/
-
-struct _fctkern_t {
- /* This is an list of loggers that can be used in the fct system.
- You/ can attach _MAX_LOGGERS to any framework. */
- nlist_t *logger_list;
-
- /* This is a list of prefix's that can be used to determine if a
- test is should be run or not. */
- nlist_t *prefix_list;
-
- /* This is a list of test suites that where generated throughout the
- testing process. */
- nlist_t *ts_list;
-};
-
-
-/* Returns the number of filters defined for the fct kernal. */
-#define fctkern__filter_cnt(_NK_) (nlist__size((_NK_)->prefix_list))
-
-
-static void
-fctkern__add_logger(fctkern_t *fct, fct_logger_i *logger_owns)
-{
- assert(fct != NULL && "invalid arg");
- assert(logger_owns != NULL && "invalid arg");
- nlist__append(fct->logger_list, logger_owns);
- assert( fct->logger_list != NULL && "memory check");
-}
-
-/* Appends a prefix filter that is used to determine if a test can
-be executed or not. If the test starts with the same characters as
-the prefix, then it should be "runnable". The prefix filter must be
-a non-NULL, non-Blank string. */
-static void
-fctkern__add_prefix_filter(fctkern_t const *fct, char const *prefix_filter)
-{
- char *filter =NULL;
- int filter_len =0;
-
- assert( fct != NULL && "invalid arg" );
- assert( prefix_filter != NULL && "invalid arg" );
- assert( strlen(prefix_filter) > 0 && "invalid arg" );
-
- /* First we make a copy of the prefix, then we store it away
- in our little list. */
- filter_len = strlen(prefix_filter);
- filter = (char*)malloc(sizeof(char)*(filter_len+1));
- strncpy(filter, prefix_filter, filter_len);
- filter[filter_len] = '\0';
-
- nlist__append(fct->prefix_list, (void*)filter);
-}
-
-
-/* Parses the command line and sets up the framework. The argc and argv
-should be directly from the program's main. */
-static void
-fctkern_init(fctkern_t *nk, int argc, char *argv[])
-{
- fct_logger_i *standard_logger = NULL;
- int arg_i =0;
-
- assert( nk != NULL );
-
- memset(nk, 0, sizeof(fctkern_t));
-
- nk->logger_list = nlist_new();
- nk->prefix_list = nlist_new();
- nk->ts_list = nlist_new();
-
- /* Low-budget memory check for now. */
- assert( nk->logger_list != NULL );
- assert( nk->prefix_list != NULL );
- assert( nk->ts_list != NULL );
-
- standard_logger = (fct_logger_i*) fct_standard_logger__new();
- assert( standard_logger != NULL && "no memory!");
-
- fctkern__add_logger(nk, standard_logger);
- standard_logger = NULL; /* Owned by the nk list. */
-
- /* Our basic parser. For now we just take each 'argv' and assume
- that it is a prefix filter. Notice we start at argument 1, since
- we don't care about the *name* of the program. */
- for ( arg_i =1; arg_i < argc; ++arg_i )
- {
- fctkern__add_prefix_filter(nk, argv[arg_i]);
- }
-}
-
-
-/* Takes OWNERSHIP of the test suite after we have finished executing
-its contents. This way we can build up all kinds of summaries at the end
-of a run. */
-static void
-fctkern__add_ts(fctkern_t *nk, fct_ts_t *ts) {
- assert( nk != NULL );
- assert( ts != NULL );
- nlist__append(nk->ts_list, ts);
-}
-
-
-
-/* Returns FCT_TRUE if the supplied test_name passes the filters set on
-this test suite. If there are no filters, we return FCT_TRUE always. */
-static nbool_t
-fctkern__pass_filter(fctkern_t *nk, char const *test_name) {
- int prefix_i =0;
- int prefix_list_size =0;
-
- assert( nk != NULL && "invalid arg");
- assert( test_name != NULL );
- assert( strlen(test_name) > 0 );
-
- prefix_list_size = fctkern__filter_cnt(nk);
-
- /* If there is no filter list, then we return FCT_TRUE always. */
- if ( prefix_list_size == 0 ) {
- return FCT_TRUE;
- }
-
- /* Iterate through the prefix filter list, and see if we have
- anything that does not pass. All we require is ONE item that
- passes the test in order for us to succeed here. */
- for ( prefix_i = 0; prefix_i != prefix_list_size; ++prefix_i ) {
- char const *prefix = (char const*)nlist__at(nk->prefix_list, prefix_i);
- nbool_t pass = fct_filter_pass(prefix, test_name);
- if ( pass ) {
- return FCT_TRUE;
- }
- }
-
- /* Otherwise, we never managed to find a prefix that satisfied the
- supplied test name. Therefore we have failed to pass to the filter
- list test. */
- return FCT_FALSE;
-}
-
-
-/* Returns the number of tests that were performed. */
-static int
-fctkern__tst_cnt(fctkern_t const *nk)
-{
- int tally =0;
- assert( nk != NULL );
-
- NLIST_FOREACH_BGN(fct_ts_t *, ts, nk->ts_list)
- {
- tally += fct_ts__tst_cnt(ts);
- }
- NLIST_FOREACH_END();
- return tally;
-}
-
-/* Returns the number of tests that passed. */
-static int
-fctkern__tst_cnt_passed(fctkern_t const *nk)
-{
- int tally =0;
- assert( nk != NULL );
-
- NLIST_FOREACH_BGN(fct_ts_t*, ts, nk->ts_list)
- {
- tally += fct_ts__tst_cnt_passed(ts);
- }
- NLIST_FOREACH_END();
-
- return tally;
-}
-
-
-/* Returns the number of tests that failed. */
-static int
-fctkern__tst_cnt_failed(fctkern_t const *nk)
-{
- /* Keep it simple for now and just do a little math. */
- int total =0;
- int passed =0;
- int failed =0;
-
- assert( nk != NULL );
-
- total = fctkern__tst_cnt(nk);
- passed = fctkern__tst_cnt_passed(nk);
-
- failed = total - passed;
-
- return failed;
-}
-
-
-/* Returns the number of checks made throughout the entire test. */
-static int
-fctkern__chk_cnt(fctkern_t const *nk)
-{
- int tally =0;
- assert( nk != NULL );
-
- NLIST_FOREACH_BGN(fct_ts_t *, ts, nk->ts_list)
- {
- tally += fct_ts__chk_cnt(ts);
- }
- NLIST_FOREACH_END();
- return tally;
-}
-
-
-/* Indicates the very end of all the tests. */
-static void
-fctkern__end(fctkern_t *fct)
-{
- fct_unused(fct);
-}
-
-
-/* Cleans up the contents of a fctkern. NULL does nothing. */
-static void
-fctkern__final(fctkern_t *fct)
-{
- if ( fct == NULL ) { return; }
-
- nlist__del(fct->logger_list, (on_del_t)fct_logger__del);
-
- /* The prefix list is a list of malloc'd strings. */
- nlist__del(fct->prefix_list, (on_del_t)free);
-
- nlist__del(fct->ts_list, (on_del_t)fct_ts__del);
-}
-
-
-static void
-fctkern__log_suite_start(fctkern_t *kern, fct_ts_t const *ts)
-{
- assert( kern != NULL );
- assert( ts != NULL );
- NLIST_FOREACH_BGN(fct_logger_i*, logger, kern->logger_list)
- {
- fct_logger__on_test_suite_start(logger, ts);
- }
- NLIST_FOREACH_END();
-}
-
-
-static void
-fctkern__log_suite_end(fctkern_t *kern, fct_ts_t const *ts)
-{
- assert( kern != NULL );
- assert( ts != NULL );
- NLIST_FOREACH_BGN(fct_logger_i*, logger, kern->logger_list)
- {
- fct_logger__on_test_suite_end(logger, ts);
- }
- NLIST_FOREACH_END();
-}
-
-
-static void
-fctkern__log_chk(fctkern_t *kern, fctchk_t const *chk)
-{
- assert( kern != NULL );
- assert( chk != NULL );
-
- NLIST_FOREACH_BGN(fct_logger_i*, logger, kern->logger_list)
- {
- fct_logger__on_cndtn(logger, chk);
- }
- NLIST_FOREACH_END();
-}
-
-
-/* Called whenever a test is started. */
-static void
-fctkern__log_test_start(fctkern_t *kern, fct_test_t const *test)
-{
- assert( kern != NULL );
- assert( test != NULL );
- NLIST_FOREACH_BGN(fct_logger_i*, logger, kern->logger_list)
- {
- fct_logger__on_test_start(logger, test);
- }
- NLIST_FOREACH_END();
-}
-
-
-static void
-fctkern__log_test_end(fctkern_t *kern, fct_test_t const *test)
-{
- assert( kern != NULL );
- assert( test != NULL );
- NLIST_FOREACH_BGN(fct_logger_i*, logger, kern->logger_list)
- {
- fct_logger__on_test_end(logger, test);
- }
- NLIST_FOREACH_END();
-}
-
-
-static void
-fctkern__log_start(fctkern_t *kern)
-{
- assert( kern != NULL );
- NLIST_FOREACH_BGN(fct_logger_i*, logger, kern->logger_list)
- {
- fct_logger__on_fct_start(logger, kern);
- }
- NLIST_FOREACH_END();
-}
-
-
-static void
-fctkern__log_end(fctkern_t *kern)
-{
- assert( kern != NULL );
- NLIST_FOREACH_BGN(fct_logger_i*, logger, kern->logger_list)
- {
- fct_logger__on_fct_end(logger, kern);
- }
- NLIST_FOREACH_END();
-}
-
-
-/*
------------------------------------------------------------
-LOGGER INTERFACE
-
-Defines an interface to a logging system. A logger
-must define the following functions in order to hook
-into the logging system.
-
-See the "Standard Logger" and "Minimal Logger" as examples
-of the implementation.
------------------------------------------------------------
-*/
-
-typedef void (*fct_logger_on_cndtn_fn)(fct_logger_i *self,
- fctchk_t const *chk);
-#define _fct_logger_head \
- fct_logger_on_cndtn_fn on_cndtn;\
- void (*on_test_start)(fct_logger_i *logger, fct_test_t const *test);\
- void (*on_test_end)(fct_logger_i *logger, fct_test_t const *test);\
- void (*on_test_suite_start)(fct_logger_i *logger, fct_ts_t const *ts);\
- void (*on_test_suite_end)(fct_logger_i *logger, fct_ts_t const *ts);\
- void (*on_fct_start)(fct_logger_i *logger, fctkern_t const *kern);\
- void (*on_fct_end)(fct_logger_i *logger, fctkern_t const *kern);\
- void (*on_delete)(fct_logger_i *logger)\
-
-struct _fct_logger_i {
- _fct_logger_head;
-};
-
-
-/* Initializes the elements of a logger interface so they are at their
-standard values. */
-static void
-fct_logger__init(fct_logger_i *logger)
-{
- assert( logger != NULL );
- logger->on_cndtn =NULL;
- logger->on_test_start =NULL;
- logger->on_test_end =NULL;
- logger->on_test_suite_start =NULL;
- logger->on_test_suite_end =NULL;
- logger->on_fct_start =NULL;
- logger->on_fct_end =NULL;
- logger->on_delete =NULL;
-}
-
-
-static void
-fct_logger__del(fct_logger_i *logger)
-{
- if ( logger == NULL ) { return; }
- if ( logger->on_delete) { logger->on_delete(logger); }
-}
-
-
-static void
-fct_logger__on_test_start(fct_logger_i *logger, fct_test_t const *test)
-{
- assert( logger != NULL && "invalid arg");
- assert( test != NULL && "invalid arg");
-
- if ( logger->on_test_start != NULL )
- {
- logger->on_test_start(logger, test);
- }
-}
-
-
-static void
-fct_logger__on_test_end(fct_logger_i *logger, fct_test_t const *test)
-{
- assert( logger != NULL && "invalid arg");
- assert( test != NULL && "invalid arg");
-
- if ( logger->on_test_end != NULL )
- {
- logger->on_test_end(logger, test);
- }
-}
-
-
-static void
-fct_logger__on_test_suite_start(fct_logger_i *logger, fct_ts_t const *ts)
-{
- assert( logger != NULL && "invalid arg");
- assert( ts != NULL && "invalid arg");
-
- if ( logger->on_test_suite_start != NULL )
- {
- logger->on_test_suite_start(logger, ts);
- }
-}
-
-
-static void
-fct_logger__on_test_suite_end(fct_logger_i *logger, fct_ts_t const *ts)
-{
- assert( logger != NULL && "invalid arg");
- assert( ts != NULL && "invalid arg");
-
- if ( logger->on_test_suite_end != NULL )
- {
- logger->on_test_suite_end(logger, ts);
- }
-}
-
-
-static void
-fct_logger__on_cndtn(fct_logger_i *logger, fctchk_t const *chk)
-{
- assert( logger != NULL && "invalid arg");
- assert( chk != NULL && "invalid arg");
-
- if ( logger->on_cndtn )
- {
- logger->on_cndtn(logger, chk);
- }
-}
-
-
-/* When we start all our tests. */
-static void
-fct_logger__on_fct_start(fct_logger_i *logger, fctkern_t const *kern)
-{
- assert( logger != NULL );
- assert( kern != NULL );
-
- if ( logger->on_fct_start != NULL )
- {
- logger->on_fct_start(logger, kern);
- }
-}
-
-
-/* When we have reached the end of ALL of our testing. */
-static void
-fct_logger__on_fct_end(fct_logger_i *logger, fctkern_t const *kern)
-{
- assert( logger != NULL );
- assert( kern != NULL );
-
- if ( logger->on_fct_end )
- {
- logger->on_fct_end(logger, kern);
- }
-}
-
-
-
-/*
------------------------------------------------------------
-MINIMAL LOGGER
------------------------------------------------------------
-*/
-
-/* Minimal logger, reports the minimum amount of information needed
-to determine "something is happening". */
-struct _fct_minimal_logger_t {
- _fct_logger_head;
-};
-
-
-static void
-fct_minimal_logger__on_cndtn(fct_logger_i *self, fctchk_t const *chk)
-{
- fct_unused(self);
- printf(fctchk__is_pass(chk) ? "." : "!");
-}
-
-
-static void
-fct_minimal_logger__del(fct_logger_i *self)
-{
- free(self);
-}
-
-
-static fct_minimal_logger_t *
-fct_minimal_logger__new(void)
-{
- fct_minimal_logger_t *self = (fct_minimal_logger_t*)\
- calloc(1,sizeof(fct_minimal_logger_t));
- if ( self == NULL ) { return NULL; }
-
- fct_logger__init((fct_logger_i*)self);
-
- self->on_cndtn = fct_minimal_logger__on_cndtn;
- self->on_delete = fct_minimal_logger__del;
- return self;
-}
-
-
-/*
------------------------------------------------------------
-STANDARD LOGGER
------------------------------------------------------------
-*/
-
-struct _fct_standard_logger_t {
- _fct_logger_head;
-
- /* Start time. For now we use the low-accuracy time_t version. */
- fct_timer_t timer;
-
- /* A list of char*'s that needs to be cleaned up. */
- nlist_t *failed_cndtns_list;
-};
-
-
-/* When a failure occurrs, we will record the details so we can display
-them when the log "finishes" up. */
-static void
-fct_standard_logger__on_cndtn(fct_logger_i *logger_, fctchk_t const *chk)
-{
- fct_standard_logger_t *logger = (fct_standard_logger_t*)logger_;
-
- assert( logger != NULL );
- assert( chk != NULL );
-
- /* Only record failures. */
- if ( !fctchk__is_pass(chk) )
- {
- /* For now we will truncate the string to some set amount, later
- we can work out a dynamic string object. */
- char *str = (char*)malloc(sizeof(char)*FCT_MAX_LOG_LINE);
- assert( str != NULL );
-
- fct_snprintf(
- str,
- FCT_MAX_LOG_LINE,
- "%s(%d): %s",
- fctchk__file(chk),
- fctchk__lineno(chk),
- fctchk__cndtn(chk)
- );
-
- /* Append it to the listing ... */
- nlist__append(logger->failed_cndtns_list, (void*)str);
- }
-}
-
-
-static void
-fct_standard_logger__on_test_start(fct_logger_i *logger_,
- fct_test_t const *test)
-{
- fct_unused(logger_);
- printf("%s ... ", fct_test__name(test));
-}
-
-
-static void
-fct_standard_logger__on_test_end(fct_logger_i *logger_,
- fct_test_t const *test)
-{
- nbool_t is_pass;
- fct_unused(logger_);
-
- is_pass = fct_test__is_pass(test);
- printf("%s\n", (is_pass) ? "PASS" : "FAIL" );
-}
-
-
-static void
-fct_standard_logger__on_test_suite_start(fct_logger_i *logger_,
- fct_ts_t const *ts)
-{
- fct_unused(logger_);
- fct_unused(ts);
-}
-
-
-static void
-fct_standard_logger__on_test_suite_end(fct_logger_i *logger_,
- fct_ts_t const *ts)
-{
- fct_unused(logger_);
- fct_unused(ts);
-}
-
-
-static void
-fct_standard_logger__on_fct_start(fct_logger_i *logger_,
- fctkern_t const *nk)
-{
- fct_standard_logger_t *logger = (fct_standard_logger_t*)logger_;
- fct_unused(nk);
- fct_timer__start(&(logger->timer));
-}
-
-
-static void
-fct_standard_logger__on_fct_end(fct_logger_i *logger_, fctkern_t const *nk)
-{
- fct_standard_logger_t *logger = (fct_standard_logger_t*)logger_;
- nbool_t is_success =1;
- double elasped_time =0;
- int num_tests =0;
- int num_passed =0;
-
- fct_timer__stop(&(logger->timer));
-
- is_success = nlist__size(logger->failed_cndtns_list) ==0;
-
- if ( !is_success )
- {
- printf("\n--------------------------------------------------------\n");
- printf("FAILED TESTS\n\n");
-
- NLIST_FOREACH_BGN(char *, cndtn_str, logger->failed_cndtns_list)
- {
- printf("%s\n", cndtn_str);
- }
- NLIST_FOREACH_END();
-
- printf("\n");
- }
-
- printf("\n--------------------------------------------------------\n");
-
- num_tests = fctkern__tst_cnt(nk);
- num_passed = fctkern__tst_cnt_passed(nk);
-
- printf(
- "%s (%d/%d tests",
- (is_success) ? "PASSED" : "FAILED",
- num_passed,
- num_tests
- );
-
- elasped_time = fct_timer__duration(&(logger->timer));
- if ( elasped_time > 0.0000001 )
- {
- printf(" in %.6fs)\n", elasped_time);
- }
- else
- {
- /* Don't bother displaying the time to execute. */
- printf(")\n");
- }
-}
-
-
-static void
-fct_standard_logger__del(fct_logger_i *logger_)
-{
- fct_standard_logger_t *logger = (fct_standard_logger_t*)logger_;
-
- NLIST_FOREACH_BGN(char *, cndtn_str, logger->failed_cndtns_list)
- {
- free(cndtn_str);
- }
- NLIST_FOREACH_END();
-
- free(logger);
- logger_ =NULL;
-}
-
-
-fct_standard_logger_t *
-fct_standard_logger__new(void)
-{
- fct_standard_logger_t *logger = (fct_standard_logger_t *)calloc(
- 1, sizeof(fct_standard_logger_t)
- );
- if ( logger == NULL )
- {
- return NULL;
- }
- fct_logger__init((fct_logger_i*)logger);
- logger->on_cndtn = fct_standard_logger__on_cndtn;
- logger->on_test_start = fct_standard_logger__on_test_start;
- logger->on_test_end = fct_standard_logger__on_test_end;
- logger->on_test_suite_start = fct_standard_logger__on_test_suite_start;
- logger->on_test_suite_end = fct_standard_logger__on_test_suite_end;
- logger->on_fct_start = fct_standard_logger__on_fct_start;
- logger->on_fct_end = fct_standard_logger__on_fct_end;
- logger->on_delete = fct_standard_logger__del;
-
- logger->failed_cndtns_list = nlist_new();
- assert( logger->failed_cndtns_list != NULL );
-
- fct_timer__init(&(logger->timer));
-
- return logger;
-}
-
-
-
-/*
-------------------------------------------------------------
-MAGIC MACROS
-------------------------------------------------------------
-*/
-
-#define FCT_BGN() \
-int \
-main(int argc, char *argv[])\
-{\
- fctkern_t fctkern__;\
- fctkern_init(&fctkern__, argc, argv);\
- fctkern__log_start(&fctkern__);
-
-
-#define FCT_END()\
- {\
- int num_failed__ =0;\
- num_failed__ = fctkern__tst_cnt_failed((&fctkern__));\
- fctkern__log_end(&fctkern__);\
- fctkern__end(&fctkern__);\
- fctkern__final(&fctkern__);\
- return num_failed__;\
- }\
-}
-
-#define FCT_FIXTURE_SUITE_BGN(_NAME_) \
- {\
- fct_ts_t *ts__ = fct_ts_new( #_NAME_ );\
- fctkern__log_suite_start((&fctkern__), ts__);\
- for (;;)\
- {\
- int fct_test_num__ = -1;\
- _fct_cmt("Strict compiler warnings will complain in 'blank' suites.")\
- _fct_cmt("so we are going to do a 'noop' to trick them.")\
- fct_test_num__ = fct_test_num__;\
- if ( fct_ts__is_ending_mode(ts__) )\
- {\
- _fct_cmt("flag the test suite as complete.");\
- fct_ts__end(ts__);\
- break;\
- }
-
-
-/* Closes off a "Fixture" test suite. */
-#define FCT_FIXTURE_SUITE_END() \
- if ( fct_ts__is_cnt_mode(ts__) )\
- {\
- fct_ts__cnt_end(ts__);\
- }\
- }\
- fctkern__add_ts((&fctkern__), ts__);\
- fctkern__log_suite_end((&fctkern__), ts__);\
- ts__ = NULL;\
- }
-
-
-
-#define FCT_SETUP_BGN()\
- if ( fct_ts__is_setup_mode(ts__) ) {
-
-#define FCT_SETUP_END() \
- fct_ts__setup_end(ts__); }
-
-#define FCT_TEARDOWN_BGN() \
- if ( fct_ts__is_teardown_mode(ts__) ) {\
-
-#define FCT_TEARDOWN_END() \
- fct_ts__teardown_end(ts__); \
- continue; \
- }
-
-/* Lets you create a test suite, where maybe you don't want a fixture. We
-do it by 'stubbing' out the setup/teardown logic. */
-#define FCT_SUITE_BGN(Name) \
- FCT_FIXTURE_SUITE_BGN(Name) {\
- FCT_SETUP_BGN() {_fct_cmt("stubbed"); } FCT_SETUP_END()\
- FCT_TEARDOWN_BGN() {_fct_cmt("stubbed");} FCT_TEARDOWN_END()\
-
-#define FCT_SUITE_END() } FCT_FIXTURE_SUITE_END()
-
-/* Depending on whether or not we are counting the tests, we will have to
-first determine if the test is the "current" count. Then we have to determine
-if we can pass the filter. Finally we will execute everything so that when a
-check fails, we can "break" out to the end of the test. */
-#define FCT_TEST_BGN(_NAME_) \
- {\
- char const *test_name__ = #_NAME_;\
- ++fct_test_num__;\
- if ( fct_ts__is_cnt_mode(ts__) )\
- {\
- fct_ts__inc_total_test_num(ts__);\
- }\
- else if ( fct_ts__is_test_mode(ts__) \
- && fct_ts__is_test_cnt(ts__, fct_test_num__) )\
- {\
- int is_pass__;\
- is_pass__ = FCT_FALSE;\
- fct_ts__test_begin(ts__);\
- if ( fctkern__pass_filter(&fctkern__, test_name__ ) )\
- {\
- fct_test_t *test__ = fct_test_new( test_name__ );\
- fctkern__log_test_start(&fctkern__, test__);\
- for (;;) \
- {
-
-#define FCT_TEST_END() \
- break;\
- }\
- fct_ts__add_test(ts__, test__);\
- fctkern__log_test_end(&fctkern__, test__);\
- }\
- fct_ts__test_end(ts__);\
- continue;\
- }\
- }
-
-
-
-/*
----------------------------------------------------------
-CHECKING MACROS
-----------------------------------------------------------
-
-For now we only have the one "positive" check macro. In the future I plan
-to add more macros that check for different types of common conditions.
-*/
-
-#define fct_chk(_CNDTN_) \
- {\
- fctchk_t *chk =NULL;\
- is_pass__ = (_CNDTN_);\
- chk = fctchk_new(#_CNDTN_, __FILE__, __LINE__, is_pass__);\
- fct_test__add(test__, chk);\
- fctkern__log_chk(&fctkern__, chk);\
- if ( !is_pass__ ) { break; }\
- }
-
-
-/*
----------------------------------------------------------
-GUT CHECK MACROS
-----------------------------------------------------------
-
-The following macros are used to help check the "guts" of
-the FCT, and to confirm that it all works according to spec.
-*/
-
-/* Generates a message to STDERR and exits the application with a
-non-zero number. */
-#define _FCT_GUTCHK(_CNDTN_) \
- if ( !(_CNDTN_) ) {\
- fprintf(stderr, "gutchk fail: '" #_CNDTN_ "' was not true.\n");\
- exit(1);\
- }\
- else {\
- fprintf(stdout, "gutchk pass: '" #_CNDTN_ "'\n");\
- }
-
-
-/*
----------------------------------------------------------
-CLOSING STATEMENTS
-----------------------------------------------------------
-*/
-
-/* This is defined at the start of the file. We are undefining it
-here so it doesn't conflict with existing. */
-#if defined(WIN32)
-# undef _CRT_SECURE_NO_WARNINGS
-#endif
-
-#endif /* !FCT_INCLUDED__IMB */
+/*
+====================================================================
+Copyright (c) 2008 Ian Blumel. All rights reserved.
+
+FCTX (Fast C Test) Unit Testing Framework
+
+Copyright (c) 2008, Ian Blumel (ian.blumel@gmail.com)
+All rights reserved.
+
+This license is based on the BSD License.
+
+Redistribution and use in source and binary forms, with or without
+modification, are permitted provided that the following conditions are
+met:
+
+ * Redistributions of source code must retain the above copyright
+ notice, this list of conditions and the following disclaimer.
+
+ * Redistributions in binary form must reproduce the above copyright
+ notice, this list of conditions and the following disclaimer in
+ the documentation and/or other materials provided with the
+ distribution.
+
+ * Neither the name of, Ian Blumel, nor the names of its
+ contributors may be used to endorse or promote products derived
+ from this software without specific prior written permission.
+
+THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
+IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
+TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
+PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER
+OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
+EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
+PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
+PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
+LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
+NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
+SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+====================================================================
+
+File: fct.h
+*/
+
+#if !defined(FCT_INCLUDED__IMB)
+#define FCT_INCLUDED__IMB
+
+/* Configuration Values. You can over-ride these values in your own
+header, then include this header. For example, in your file, myfct.h,
+
+ #define FCT_DEFAULT_LOGGER "standard"
+ #include "fct.h"
+
+then if your unit tests included, myfct.h, you would default to work
+with a standard logger. */
+
+#if !defined(FCT_DEFAULT_LOGGER)
+# define FCT_DEFAULT_LOGGER "standard"
+#endif /* !FCT_DEFAULT_LOGGER */
+
+#define FCT_VERSION_MAJOR 1
+#define FCT_VERSION_MINOR 6
+#define FCT_VERSION_MICRO 1
+
+#define _FCT_QUOTEME(x) #x
+#define FCT_QUOTEME(x) _FCT_QUOTEME(x)
+
+#define FCT_VERSION_STR (FCT_QUOTEME(FCT_VERSION_MAJOR) "."\
+ FCT_QUOTEME(FCT_VERSION_MINOR) "."\
+ FCT_QUOTEME(FCT_VERSION_MICRO))
+
+#include
+#include
+#include
+#include
+#include
+#include
+#include
+#include
+#include
+
+#define FCT_MAX_NAME 256
+#define FCT_MAX_LOG_LINE 256
+
+#define nbool_t int
+#define FCT_TRUE 1
+#define FCT_FALSE 0
+
+#define FCTMIN(x, y) ( x < y) ? (x) : (y)
+
+#ifndef __INTEL_COMPILER
+/* Use regular assertions for non-Intel compilers */
+#define FCT_ASSERT(expr) assert(expr)
+#else
+/* Silence Intel warnings on assert(expr && "str") or assert("str") */
+#define FCT_ASSERT(expr) do { \
+ _Pragma("warning(push,disable:279)"); \
+ assert(expr); \
+ _Pragma("warning(pop)"); \
+ } while (0)
+#endif
+
+#if defined(__cplusplus)
+#define FCT_EXTERN_C extern "C"
+#else
+#define FCT_EXTERN_C
+#endif
+
+/* Forward declarations. The following forward declarations are required
+because there is a inter-relationship between certain objects that
+just can not be untwined. */
+typedef struct _fct_logger_evt_t fct_logger_evt_t;
+typedef struct _fct_logger_i fct_logger_i;
+typedef struct _fct_logger_types_t fct_logger_types_t;
+typedef struct _fct_standard_logger_t fct_standard_logger_t;
+typedef struct _fct_junit_logger_t fct_junit_logger_t;
+typedef struct _fct_minimal_logger_t fct_minimal_logger_t;
+typedef struct _fctchk_t fctchk_t;
+typedef struct _fct_test_t fct_test_t;
+typedef struct _fct_ts_t fct_ts_t;
+typedef struct _fctkern_t fctkern_t;
+
+/* Forward declare some functions used throughout. */
+static fct_logger_i*
+fct_standard_logger_new(void);
+
+static fct_logger_i*
+fct_minimal_logger_new(void);
+
+static fct_junit_logger_t *
+fct_junit_logger_new(void);
+
+static void
+fct_logger__del(fct_logger_i *logger);
+
+static void
+fct_logger__on_chk(fct_logger_i *self, fctchk_t const *chk);
+
+static void
+fct_logger__on_test_start(fct_logger_i *logger, fct_test_t const *test);
+
+static void
+fct_logger__on_test_end(fct_logger_i *logger, fct_test_t *test);
+
+static void
+fct_logger__on_test_suite_start(fct_logger_i *logger, fct_ts_t const *ts);
+
+static void
+fct_logger__on_test_suite_end(fct_logger_i *logger, fct_ts_t const *ts);
+
+static void
+fct_logger__on_test_suite_skip(
+ fct_logger_i *logger,
+ char const *condition,
+ char const *name
+);
+
+static void
+fct_logger__on_test_skip(
+ fct_logger_i *logger,
+ char const *condition,
+ char const *name
+);
+
+
+static void
+fct_logger__on_warn(fct_logger_i *logger, char const *warn);
+
+
+
+/* Explicitly indicate a no-op */
+#define fct_pass()
+
+#define fct_unused(x) (void)(x)
+
+/* This is just a little trick to let me put comments inside of macros. I
+really only want to bother with this when we are "unwinding" the macros
+for debugging purposes. */
+#if defined(FCT_CONF_UNWIND)
+# define _fct_cmt(string) {char*_=string;}
+#else
+# define _fct_cmt(string)
+#endif
+
+/*
+--------------------------------------------------------
+UTILITIES
+--------------------------------------------------------
+*/
+
+
+/* STDIO and STDERR redirect support */
+#define FCT_PIPE_RESERVE_BYTES_DEFAULT 512
+static int fct_stdout_pipe[2];
+static int fct_stderr_pipe[2];
+static int fct_saved_stdout;
+static int fct_saved_stderr;
+
+/* Platform indepedent pipe functions. TODO: Look to figure this out in a way
+that follows the ISO C++ conformant naming convention. */
+#if defined(WIN32)
+# include
+# include
+# define _fct_pipe(_PFDS_) \
+ _pipe((_PFDS_), FCT_PIPE_RESERVE_BYTES_DEFAULT, _O_TEXT)
+# define _fct_dup _dup
+# define _fct_dup2 _dup2
+# define _fct_close _close
+# define _fct_read _read
+/* Until I can figure a better way to do this, rely on magic numbers. */
+# define STDOUT_FILENO 1
+# define STDERR_FILENO 2
+#else
+# include
+# define _fct_pipe pipe
+# define _fct_dup dup
+# define _fct_dup2 dup2
+# define _fct_close close
+# define _fct_read read
+#endif /* WIN32 */
+
+
+
+
+static void
+fct_switch_std_to_buffer(int std_pipe[2], FILE *out, int fileno_, int *save_handle)
+{
+ fflush(out);
+ *save_handle = _fct_dup(fileno_);
+ if ( _fct_pipe(std_pipe) != 0 )
+ {
+ exit(1);
+ }
+ _fct_dup2(std_pipe[1], fileno_);
+ _fct_close(std_pipe[1]);
+}
+
+
+static void
+fct_switch_std_to_std(FILE *out, int fileno_, int save_handle)
+{
+ fflush(out);
+ _fct_dup2(save_handle, fileno_);
+}
+
+
+#define FCT_SWITCH_STDOUT_TO_BUFFER() \
+ fct_switch_std_to_buffer(fct_stdout_pipe, stdout, STDOUT_FILENO, &fct_saved_stdout)
+#define FCT_SWITCH_STDOUT_TO_STDOUT() \
+ fct_switch_std_to_std(stdout, STDOUT_FILENO, fct_saved_stdout)
+#define FCT_SWITCH_STDERR_TO_BUFFER() \
+ fct_switch_std_to_buffer(fct_stderr_pipe, stderr, STDERR_FILENO, &fct_saved_stderr)
+#define FCT_SWITCH_STDERR_TO_STDERR() \
+ fct_switch_std_to_std(stderr, STDERR_FILENO, fct_saved_stderr)
+
+
+/* Utility for truncated, safe string copies. The NUM
+should be the length of DST plus the null-termintor. */
+static void
+fctstr_safe_cpy(char *dst, char const *src, size_t num)
+{
+ FCT_ASSERT( dst != NULL );
+ FCT_ASSERT( src != NULL );
+ FCT_ASSERT( num > 0 );
+#if defined(WIN32) && _MSC_VER >= 1400
+ strncpy_s(dst, num, src, _TRUNCATE);
+#else
+ strncpy(dst, src, num);
+#endif
+ dst[num-1] = '\0';
+}
+
+/* Isolate the vsnprintf implementation */
+static int
+fct_vsnprintf(char *buffer,
+ size_t buffer_len,
+ char const *format,
+ va_list args)
+{
+ int count =0;
+ /* Older microsoft compilers where not ANSI compliant with this
+ function and you had to use _vsnprintf. I will assume that newer
+ Microsoft Compilers start implementing vsnprintf. */
+#if defined(_MSC_VER) && (_MSC_VER < 1400)
+ count = _vsnprintf(buffer, buffer_len, format, args);
+#elif defined(_MSC_VER) && (_MSC_VER >= 1400)
+ count = vsnprintf_s(buffer, buffer_len, _TRUNCATE, format, args);
+#else
+ count = vsnprintf(buffer, buffer_len, format, args);
+#endif
+ return count;
+}
+
+
+/* Isolate the snprintf implemenation. */
+static int
+fct_snprintf(char *buffer, size_t buffer_len, char const *format, ...)
+{
+ int count =0;
+ va_list args;
+ va_start(args, format);
+ count =fct_vsnprintf(buffer, buffer_len, format, args);
+ va_end(args);
+ return count;
+}
+
+
+/* Helper to for cloning strings on the heap. Returns NULL for
+an out of memory condition. */
+static char*
+fctstr_clone(char const *s)
+{
+ char *k =NULL;
+ size_t klen =0;
+ FCT_ASSERT( s != NULL && "invalid arg");
+ klen = strlen(s)+1;
+ k = (char*)malloc(sizeof(char)*klen+1);
+ fctstr_safe_cpy(k, s, klen);
+ return k;
+}
+
+
+/* Clones and returns a lower case version of the original string. */
+static char*
+fctstr_clone_lower(char const *s)
+{
+ char *k =NULL;
+ size_t klen =0;
+ size_t i;
+ if ( s == NULL )
+ {
+ return NULL;
+ }
+ klen = strlen(s)+1;
+ k = (char*)malloc(sizeof(char)*klen+1);
+ for ( i=0; i != klen; ++i )
+ {
+ k[i] = (char)tolower(s[i]);
+ }
+ return k;
+}
+
+
+/* A very, very simple "filter". This just compares the supplied prefix
+against the test_str, to see if they both have the same starting
+characters. If they do we return true, otherwise we return false. If the
+prefix is a blank string or NULL, then it will return FCT_TRUE.*/
+static nbool_t
+fct_filter_pass(char const *prefix, char const *test_str)
+{
+ nbool_t is_match = FCT_FALSE;
+ char const *prefix_p;
+ char const *test_str_p;
+
+ /* If you got nothing to test against, why test? */
+ FCT_ASSERT( test_str != NULL );
+
+ /* When the prefix is NULL or blank, we always return FCT_TRUE. */
+ if ( prefix == NULL || prefix[0] == '\0' )
+ {
+ return FCT_TRUE;
+ }
+
+ /* Iterate through both character arrays at the same time. We are
+ going to play a game and see if we can beat the house. */
+ for ( prefix_p = prefix, test_str_p = test_str;
+ *prefix_p != '\0' && *test_str_p != '\0';
+ ++prefix_p, ++test_str_p )
+ {
+ is_match = *prefix_p == *test_str_p;
+ if ( !is_match )
+ {
+ break; /* Quit the first time we don't match. */
+ }
+ }
+
+ /* If the iterator for the test_str is pointing at the null char, and
+ the iterator for the prefix string is not, then the prefix string is
+ larger than the actual test string, and therefore we failed to pass the
+ filter. */
+ if ( *test_str_p == '\0' && *prefix_p != '\0' )
+ {
+ return FCT_FALSE;
+ }
+
+ /* is_match will be set to the either FCT_TRUE if we kicked of the loop
+ early because our filter ran out of characters or FCT_FALSE if we
+ encountered a mismatch before our filter ran out of characters. */
+ return is_match;
+}
+
+
+/* Routine checks if two strings are equal. Taken from
+http://publications.gbdirect.co.uk/c_book/chapter5/character_handling.html
+*/
+static int
+fctstr_eq(char const *s1, char const *s2)
+{
+ if ( s1 == s2 )
+ {
+ return 1;
+ }
+ if ( (s1 == NULL && s2 != NULL)
+ || (s1 != NULL && s2 == NULL) )
+ {
+ return 0;
+ }
+ while (*s1 == *s2)
+ {
+ if (*s1 == '\0')
+ return 1;
+ s1++;
+ s2++;
+ }
+ /* Difference detected! */
+ return 0;
+}
+
+
+static int
+fctstr_ieq(char const *s1, char const *s2)
+{
+ if ( s1 == s2 )
+ {
+ return 1;
+ }
+ if ( (s1 == NULL && s2 != NULL)
+ || (s1 != NULL && s2 == NULL) )
+ {
+ return 0;
+ }
+ while (tolower(*s1) == tolower(*s2))
+ {
+ if (*s1 == '\0')
+ return 1;
+ s1++;
+ s2++;
+ }
+ /* Difference detected! */
+ return 0;
+}
+
+
+/* Returns 1 if the STR contains the CHECK_INCL substring. NULL's
+are handled, and NULL always INCLUDES NULL. This check is case
+sensitive. If two strings point to the same place they are
+included. */
+static int
+fctstr_incl(char const *str, char const *check_incl)
+{
+ static char const *blank_s = "";
+ char const *found = NULL;
+ if ( str == NULL )
+ {
+ str = blank_s;
+ }
+ if ( check_incl == NULL )
+ {
+ check_incl = blank_s;
+ }
+ if ( str == check_incl )
+ {
+ return 1;
+ }
+ found = strstr(str, check_incl);
+ return found != NULL;
+}
+
+
+/* Does a case insensitive include check. */
+static int
+fctstr_iincl(char const *str, char const *check_incl)
+{
+ /* Going to do this with a memory allocation to save coding
+ time. In the future this can be rewritten. Both clone_lower
+ and _incl are NULL tolerant. */
+ char *lstr = fctstr_clone_lower(str);
+ char *lcheck_incl = fctstr_clone_lower(check_incl);
+ int found = fctstr_incl(lstr, lcheck_incl);
+ free(lstr);
+ free(lcheck_incl);
+ return found;
+}
+
+
+/* Returns true if STR starts with CHECK. NULL and NULL is consider
+true. */
+static int
+fctstr_startswith(char const *str, char const *check)
+{
+ char const *sp;
+ if ( str == NULL && check == NULL )
+ {
+ return 1;
+ }
+ else if ( ((str == NULL) && (check != NULL))
+ || ((str != NULL) && (check == NULL)) )
+ {
+ return 0;
+ }
+ sp = strstr(str, check);
+ return sp == str;
+}
+
+
+/* Case insenstive variant of fctstr_startswith. */
+static int
+fctstr_istartswith(char const *str, char const *check)
+{
+ /* Taking the lazy approach for now. */
+ char *istr = fctstr_clone_lower(str);
+ char *icheck = fctstr_clone_lower(check);
+ /* TODO: check for memory. */
+ int startswith = fctstr_startswith(istr, icheck);
+ free(istr);
+ free(icheck);
+ return startswith;
+}
+
+
+/* Returns true if the given string ends with the given
+check. Treats NULL as a blank string, and as such, will
+pass the ends with (a blank string endswith a blank string). */
+static int
+fctstr_endswith(char const *str, char const *check)
+{
+ size_t check_i;
+ size_t str_i;
+ if ( str == NULL && check == NULL )
+ {
+ return 1;
+ }
+ else if ( ((str == NULL) && (check != NULL))
+ || ((str != NULL) && (check == NULL)) )
+ {
+ return 0;
+ }
+ check_i = strlen(check);
+ str_i = strlen(str);
+ if ( str_i < check_i )
+ {
+ return 0; /* Can't do it string is too small. */
+ }
+ for ( ; check_i != 0; --check_i, --str_i)
+ {
+ if ( str[str_i] != check[check_i] )
+ {
+ return 0; /* Found a case where they are not equal. */
+ }
+ }
+ /* Exahausted check against string, can only be true. */
+ return 1;
+}
+
+
+static int
+fctstr_iendswith(char const *str, char const *check)
+{
+ size_t check_i;
+ size_t str_i;
+ if ( str == NULL && check == NULL )
+ {
+ return 1;
+ }
+ else if ( ((str == NULL) && (check != NULL))
+ || ((str != NULL) && (check == NULL)) )
+ {
+ return 0;
+ }
+ check_i = strlen(check);
+ str_i = strlen(str);
+ if ( str_i < check_i )
+ {
+ return 0; /* Can't do it string is too small. */
+ }
+ for ( ; check_i != 0; --check_i, --str_i)
+ {
+ if ( tolower(str[str_i]) != tolower(check[check_i]) )
+ {
+ return 0; /* Found a case where they are not equal. */
+ }
+ }
+ /* Exahausted check against string, can only be true. */
+ return 1;
+}
+
+
+/* Use this with the _end variant to get the
+
+STARTSWITH ........................................ END
+
+effect. Assumes that the line will be maxwidth in characters. The
+maxwidth can't be greater than FCT_DOTTED_MAX_LEN. */
+#define FCT_DOTTED_MAX_LEN 256
+static void
+fct_dotted_line_start(size_t maxwidth, char const *startwith)
+{
+ char line[FCT_DOTTED_MAX_LEN];
+ size_t len =0;
+ size_t line_len =0;
+
+ memset(line, '.', sizeof(char)*maxwidth);
+ len = strlen(startwith);
+ line_len = FCTMIN(maxwidth-1, len);
+ memcpy(line, startwith, sizeof(char)*line_len);
+ if ( len < maxwidth-1)
+ {
+ line[len] = ' ';
+ }
+ line[maxwidth-1] = '\0';
+ fputs(line, stdout);
+}
+
+
+static void
+fct_dotted_line_end(char const *endswith)
+{
+ printf(" %s\n", endswith);
+}
+
+
+/*
+--------------------------------------------------------
+TIMER
+--------------------------------------------------------
+This is a low-res implementation at the moment.
+
+We will improve this in the future, and isolate the
+implementation from the rest of the code.
+*/
+
+typedef struct _fct_timer_t fct_timer_t;
+struct _fct_timer_t
+{
+ clock_t start;
+ clock_t stop;
+ double duration;
+};
+
+
+static void
+fct_timer__init(fct_timer_t *timer)
+{
+ FCT_ASSERT(timer != NULL);
+ memset(timer, 0, sizeof(fct_timer_t));
+}
+
+
+static void
+fct_timer__start(fct_timer_t *timer)
+{
+ FCT_ASSERT(timer != NULL);
+ timer->start = clock();
+}
+
+
+static void
+fct_timer__stop(fct_timer_t *timer)
+{
+ FCT_ASSERT(timer != NULL);
+ timer->stop = clock();
+ timer->duration = (double) (timer->stop - timer->start) / CLOCKS_PER_SEC;
+}
+
+
+/* Returns the time in seconds. */
+static double
+fct_timer__duration(fct_timer_t const *timer)
+{
+ FCT_ASSERT( timer != NULL );
+ return timer->duration;
+}
+
+
+/*
+--------------------------------------------------------
+GENERIC LIST
+--------------------------------------------------------
+*/
+
+/* For now we will just keep it at a linear growth rate. */
+#define FCT_LIST_GROWTH_FACTOR 2
+
+/* Starting size for the list, to keep it simple we will start
+at a reasonable size. */
+#define FCT_LIST_DEFAULT_START_SZ 8
+
+/* Helper macros for quickly iterating through a list. You should be able
+to do something like,
+
+ FCT_NLIST_FOREACH_BGN(fct_logger_i*, logger, my_list)
+ {
+ fct_logger__on_blah(logger);
+ }
+ FCT_NLIST_FOREACH_END();
+
+*/
+#define FCT_NLIST_FOREACH_BGN(Type, Var, List)\
+{\
+ if ( List != NULL ) {\
+ size_t item_i##Var;\
+ size_t num_items##Var = fct_nlist__size(List);\
+ for( item_i##Var =0; item_i##Var != num_items##Var; ++item_i##Var )\
+ {\
+ Type Var = (Type) fct_nlist__at((List), item_i##Var);
+
+#define FCT_NLIST_FOREACH_END() }}}
+
+/* Used to manage a list of loggers. This works mostly like
+the STL vector, where the array grows as more items are
+appended. */
+typedef struct _fct_nlist_t fct_nlist_t;
+struct _fct_nlist_t
+{
+ /* Item's are stored as pointers to void. */
+ void **itm_list;
+
+ /* Indicates the number of element's in the array. */
+ size_t avail_itm_num;
+
+ /* Indicates the number of actually elements in the array. */
+ size_t used_itm_num;
+};
+typedef void (*fct_nlist_on_del_t)(void*);
+
+
+/* Clears the contents of the list, and sets the list count to 0. The
+actual count remains unchanged. If on_del is supplied it is executed
+against each list element. */
+static void
+fct_nlist__clear(fct_nlist_t *list, fct_nlist_on_del_t on_del)
+{
+ size_t itm_i__ =0;
+ FCT_ASSERT( list != NULL );
+ if ( on_del != NULL )
+ {
+ for ( itm_i__=0; itm_i__ != list->used_itm_num; ++itm_i__ )
+ {
+ on_del(list->itm_list[itm_i__]);
+ }
+ }
+ list->used_itm_num =0;
+}
+
+
+/* If you used init, then close with final. This is useful for
+working with structures that live on the stack. */
+static void
+fct_nlist__final(fct_nlist_t *list, fct_nlist_on_del_t on_del)
+{
+ FCT_ASSERT( list != NULL );
+ fct_nlist__clear(list, on_del);
+ free(list->itm_list);
+}
+
+
+static int
+fct_nlist__init2(fct_nlist_t *list, size_t start_sz)
+{
+ FCT_ASSERT( list != NULL );
+ if ( start_sz == 0 )
+ {
+ list->itm_list = NULL;
+ }
+ else
+ {
+ list->itm_list = (void**)malloc(sizeof(void*)*start_sz);
+ if ( list->itm_list == NULL )
+ {
+ return 0;
+ }
+ }
+ /* If these are both 0, then they are equal and that means
+ that the first append operation will allocate memory. The beauty
+ here is that if the list remains empty, then we save a malloc.
+ Empty lists are relatively common in FCT (consider an error list). */
+ list->avail_itm_num = start_sz;
+ list->used_itm_num =0;
+ return 1;
+}
+
+
+/* Initializes a list. Useful for populating existing structures.
+Returns 0 if there was an error allocating memory. Returns 1 otherwise. */
+#define fct_nlist__init(_LIST_PTR_) \
+ (fct_nlist__init2((_LIST_PTR_), FCT_LIST_DEFAULT_START_SZ))
+
+
+/* Returns the number of elements within the list. */
+static size_t
+fct_nlist__size(fct_nlist_t const *list)
+{
+ FCT_ASSERT( list != NULL );
+ return list->used_itm_num;
+}
+
+
+/* Returns the item at idx, asserts otherwise. */
+static void*
+fct_nlist__at(fct_nlist_t const *list, size_t idx)
+{
+ FCT_ASSERT( list != NULL );
+ FCT_ASSERT( idx < list->used_itm_num );
+ return list->itm_list[idx];
+}
+
+
+static void
+fct_nlist__append(fct_nlist_t *list, void *itm)
+{
+ FCT_ASSERT( list != NULL );
+ /* If we ran out of room, then the last increment should be equal to the
+ available space, in this case we need to grow a little more. If this
+ list started as size 0, then we should encounter the same effect as
+ "running out of room." */
+ if ( list->used_itm_num == list->avail_itm_num )
+ {
+ /* Use multiple and add, since the avail_itm_num could be 0. */
+ list->avail_itm_num = list->avail_itm_num*FCT_LIST_GROWTH_FACTOR+\
+ FCT_LIST_GROWTH_FACTOR;
+ list->itm_list = (void**)realloc(
+ list->itm_list, sizeof(void*)*list->avail_itm_num
+ );
+ FCT_ASSERT( list->itm_list != NULL && "memory check");
+ }
+
+ list->itm_list[list->used_itm_num] = itm;
+ ++(list->used_itm_num);
+}
+
+
+
+/*
+-----------------------------------------------------------
+A SINGLE CHECK
+-----------------------------------------------------------
+This defines a single check. It indicates what the check was,
+and where it occurred. A "Test" object will have-a bunch
+of "checks".
+*/
+
+struct _fctchk_t
+{
+ /* This string that represents the condition. */
+ char cndtn[FCT_MAX_LOG_LINE];
+
+ /* These indicate where the condition occurred. */
+ char file[FCT_MAX_LOG_LINE];
+
+ int lineno;
+
+ nbool_t is_pass;
+
+ /* This is a message that we can "format into", if
+ no format string is specified this should be
+ equivalent to the cntdn. */
+ char msg[FCT_MAX_LOG_LINE];
+};
+
+#define fctchk__is_pass(_CHK_) ((_CHK_)->is_pass)
+#define fctchk__file(_CHK_) ((_CHK_)->file)
+#define fctchk__lineno(_CHK_) ((_CHK_)->lineno)
+#define fctchk__cndtn(_CHK_) ((_CHK_)->cndtn)
+#define fctchk__msg(_CHK_) ((_CHK_)->msg)
+
+static fctchk_t*
+fctchk_new(int is_pass,
+ char const *cndtn,
+ char const *file,
+ int lineno,
+ char const *format,
+ va_list args)
+{
+ fctchk_t *chk = NULL;
+
+ FCT_ASSERT( cndtn != NULL );
+ FCT_ASSERT( file != NULL );
+ FCT_ASSERT( lineno > 0 );
+
+ chk = (fctchk_t*)calloc(1, sizeof(fctchk_t));
+ if ( chk == NULL )
+ {
+ return NULL;
+ }
+
+ fctstr_safe_cpy(chk->cndtn, cndtn, FCT_MAX_LOG_LINE);
+ fctstr_safe_cpy(chk->file, file, FCT_MAX_LOG_LINE);
+ chk->lineno = lineno;
+
+ chk->is_pass =is_pass;
+
+ if ( format != NULL )
+ {
+ fct_vsnprintf(chk->msg, FCT_MAX_LOG_LINE, format, args);
+ }
+ else
+ {
+ /* Default to make the condition be the message, if there was no format
+ specified. */
+ fctstr_safe_cpy(chk->msg, cndtn, FCT_MAX_LOG_LINE);
+ }
+
+ return chk;
+}
+
+
+/* Cleans up a "check" object. If the `chk` is NULL, this function does
+nothing. */
+static void
+fctchk__del(fctchk_t *chk)
+{
+ if ( chk == NULL )
+ {
+ return;
+ }
+ free( chk );
+}
+
+
+/*
+-----------------------------------------------------------
+A TEST
+-----------------------------------------------------------
+A suite will have-a list of tests. Where each test will have-a
+list of failed and passed checks.
+*/
+
+struct _fct_test_t
+{
+ /* List of failed and passed "checks" (fctchk_t). Two seperate
+ lists make it faster to determine how many checks passed and how
+ many checks failed. */
+ fct_nlist_t failed_chks;
+ fct_nlist_t passed_chks;
+
+ /* To store the test run time */
+ fct_timer_t timer;
+
+ /* The name of the test case. */
+ char name[FCT_MAX_NAME];
+};
+
+#define fct_test__name(_TEST_) ((_TEST_)->name)
+
+/* Clears the failed tests ... partly for internal testing. */
+#define fct_test__clear_failed(test) \
+ fct_nlist__clear(test->failed_chks, (fct_nlist_on_del_t)fctchk__del);\
+
+
+static void
+fct_test__del(fct_test_t *test)
+{
+ if (test == NULL )
+ {
+ return;
+ }
+ fct_nlist__final(&(test->passed_chks), (fct_nlist_on_del_t)fctchk__del);
+ fct_nlist__final(&(test->failed_chks), (fct_nlist_on_del_t)fctchk__del);
+ free(test);
+}
+
+
+static fct_test_t*
+fct_test_new(char const *name)
+{
+ nbool_t ok =FCT_FALSE;
+ fct_test_t *test =NULL;
+
+ test = (fct_test_t*)malloc(sizeof(fct_test_t));
+ if ( test == NULL )
+ {
+ return NULL;
+ }
+
+ fctstr_safe_cpy(test->name, name, FCT_MAX_NAME);
+
+ /* Failures are an exception, so lets not allocate up
+ the list until we need to. */
+ fct_nlist__init2(&(test->failed_chks), 0);
+ if (!fct_nlist__init(&(test->passed_chks)))
+ {
+ ok =FCT_FALSE;
+ goto finally;
+ }
+
+ fct_timer__init(&(test->timer));
+
+ ok =FCT_TRUE;
+finally:
+ if ( !ok )
+ {
+ fct_test__del(test);
+ test =NULL;
+ }
+ return test;
+}
+
+
+static void
+fct_test__start_timer(fct_test_t *test)
+{
+ FCT_ASSERT( test != NULL );
+ fct_timer__start(&(test->timer));
+}
+
+
+static void
+fct_test__stop_timer(fct_test_t *test)
+{
+ FCT_ASSERT( test != NULL );
+ fct_timer__stop(&(test->timer));
+}
+
+
+static double
+fct_test__duration(fct_test_t const *test)
+{
+ FCT_ASSERT( test != NULL );
+ return fct_timer__duration(&(test->timer));
+}
+
+
+static nbool_t
+fct_test__is_pass(fct_test_t const *test)
+{
+ FCT_ASSERT( test != NULL );
+ return fct_nlist__size(&(test->failed_chks)) == 0;
+}
+
+
+static void
+fct_test__add(fct_test_t *test, fctchk_t *chk)
+{
+
+ FCT_ASSERT( test != NULL );
+ FCT_ASSERT( chk != NULL );
+
+ if ( fctchk__is_pass(chk) )
+ {
+ fct_nlist__append(&(test->passed_chks), (void*)chk);
+ }
+ else
+ {
+ fct_nlist__append(&(test->failed_chks), (void*)chk);
+ }
+}
+
+/* Returns the number of checks made throughout the test. */
+static size_t
+fct_test__chk_cnt(fct_test_t const *test)
+{
+ FCT_ASSERT( test != NULL );
+ return fct_nlist__size(&(test->failed_chks)) \
+ + fct_nlist__size(&(test->passed_chks));
+}
+
+
+/*
+-----------------------------------------------------------
+TEST SUITE (TS)
+-----------------------------------------------------------
+*/
+
+
+/* The different types of 'modes' that a test suite can be in.
+
+While the test suite is iterating through all the tests, its "State"
+can change from "setup mode", to "test mode" to "tear down" mode.
+These help to indicate what mode are currently in. Think of it as a
+basic FSM.
+
+ if the count was 0 end
+ +--------->---------------------> ending_mode-----+-+
+ | ^ |
+ ^ | ^
+start | [if no more tests] |
+ | | | |
+ +-count_mode -> setup_mode -> test_mode -> teardown_mode->-+
+ | ^ | |
+ | +-----------<---------------+ |
+ +----------->---[if fct_req fails]--------+
+
+*/
+enum ts_mode
+{
+ ts_mode_cnt, /* To setup when done counting. */
+ ts_mode_setup, /* To test when done setup. */
+ ts_mode_teardown, /* To ending mode, when no more tests. */
+ ts_mode_test, /* To tear down mode. */
+ ts_mode_ending, /* To ... */
+ ts_mode_end, /* .. The End. */
+ ts_mode_abort /* Abort */
+};
+
+/* Types of states the test could be in. */
+typedef enum
+{
+ fct_test_status_SUCCESS,
+ fct_test_status_FAILURE
+} fct_test_status;
+
+
+struct _fct_ts_t
+{
+ /* For counting our 'current' test number, and the total number of
+ tests. */
+ int curr_test_num;
+ int total_test_num;
+
+ /* Keeps track of the current state of the object while it is walking
+ through its "FSM" */
+ enum ts_mode mode;
+
+ /* The name of the test suite. */
+ char name[FCT_MAX_NAME];
+
+ /* List of tests that where executed within the test suite. */
+ fct_nlist_t test_list;
+};
+
+
+#define fct_ts__is_setup_mode(ts) ((ts)->mode == ts_mode_setup)
+#define fct_ts__is_teardown_mode(ts) ((ts)->mode == ts_mode_teardown)
+#define fct_ts__is_test_mode(ts) ((ts)->mode == ts_mode_test)
+#define fct_ts__is_ending_mode(ts) ((ts)->mode == ts_mode_ending)
+#define fct_ts__is_end(ts) ((ts)->mode == ts_mode_end)
+#define fct_ts__is_cnt_mode(ts) ((ts)->mode == ts_mode_cnt)
+#define fct_ts__is_abort_mode(ts) ((ts)->mode == ts_mode_abort)
+
+/* This cndtn is set when we have iterated through all the tests, and
+there was nothing more to do. */
+#define fct_ts__ending(ts) ((ts)->mode = ts_mode_ending)
+
+/* Flag a test suite as complete. It will no longer accept any more tests. */
+#define fct_ts__end(ts) ((ts)->mode = ts_mode_end)
+
+#define fct_ts__name(ts) ((ts)->name)
+
+
+static void
+fct_ts__del(fct_ts_t *ts)
+{
+ if ( ts == NULL )
+ {
+ return;
+ }
+ fct_nlist__final(&(ts->test_list), (fct_nlist_on_del_t)fct_test__del);
+ free(ts);
+}
+
+static fct_ts_t *
+fct_ts_new(char const *name)
+{
+ fct_ts_t *ts =NULL;
+ ts = (fct_ts_t*)calloc(1, sizeof(fct_ts_t));
+ FCT_ASSERT( ts != NULL );
+
+ fctstr_safe_cpy(ts->name, name, FCT_MAX_NAME);
+ ts->mode = ts_mode_cnt;
+ fct_nlist__init(&(ts->test_list));
+ return ts;
+}
+
+
+
+static nbool_t
+fct_ts__is_more_tests(fct_ts_t const *ts)
+{
+ FCT_ASSERT( ts != NULL );
+ FCT_ASSERT( !fct_ts__is_end(ts) );
+ return ts->curr_test_num < ts->total_test_num;
+}
+
+
+/* Indicates that we have started a test case. */
+static void
+fct_ts__test_begin(fct_ts_t *ts)
+{
+ FCT_ASSERT( !fct_ts__is_end(ts) );
+ ++(ts->curr_test_num);
+}
+
+
+/* Takes OWNERSHIP of a test object, and warehouses it for later stat
+generation. */
+static void
+fct_ts__add_test(fct_ts_t *ts, fct_test_t *test)
+{
+ FCT_ASSERT( ts != NULL && "invalid arg");
+ FCT_ASSERT( test != NULL && "invalid arg");
+ FCT_ASSERT( !fct_ts__is_end(ts) );
+ fct_nlist__append(&(ts->test_list), test);
+}
+
+
+static void
+fct_ts__test_end(fct_ts_t *ts)
+{
+ FCT_ASSERT( ts != NULL );
+ /* After a test has completed, move to teardown mode. */
+ ts->mode = ts_mode_teardown;
+}
+
+
+/* Increments the internal count by 1. */
+static void
+fct_ts__inc_total_test_num(fct_ts_t *ts)
+{
+ FCT_ASSERT( ts != NULL );
+ FCT_ASSERT( fct_ts__is_cnt_mode(ts) );
+ FCT_ASSERT( !fct_ts__is_end(ts) );
+ ++(ts->total_test_num);
+}
+
+
+/* Flags the end of the setup, which implies we are going to move into
+setup mode. You must be already in setup mode for this to work! */
+static void
+fct_ts__setup_end(fct_ts_t *ts)
+{
+ if ( ts->mode != ts_mode_abort )
+ {
+ ts->mode = ts_mode_test;
+ }
+}
+
+
+static fct_test_t *
+fct_ts__make_abort_test(fct_ts_t *ts)
+{
+ char setup_testname[FCT_MAX_LOG_LINE+1] = {'\0'};
+ char const *suitename = fct_ts__name(ts);
+ fct_snprintf(setup_testname, FCT_MAX_LOG_LINE, "setup_%s", suitename);
+ return fct_test_new(setup_testname);
+}
+
+/* Flags a pre-mature abort of a setup (like a failed fct_req). */
+static void
+fct_ts__setup_abort(fct_ts_t *ts)
+{
+ FCT_ASSERT( ts != NULL );
+ ts->mode = ts_mode_abort;
+}
+
+/* Flags the end of the teardown, which implies we are going to move
+into setup mode (for the next 'iteration'). */
+static void
+fct_ts__teardown_end(fct_ts_t *ts)
+{
+ if ( ts->mode == ts_mode_abort )
+ {
+ return; /* Because we are aborting . */
+ }
+ /* We have to decide if we should keep on testing by moving into tear down
+ mode or if we have reached the real end and should be moving into the
+ ending mode. */
+ if ( fct_ts__is_more_tests(ts) )
+ {
+ ts->mode = ts_mode_setup;
+ }
+ else
+ {
+ ts->mode = ts_mode_ending;
+ }
+}
+
+
+/* Flags the end of the counting, and proceeding to the first setup.
+Consider the special case when a test suite has NO tests in it, in
+that case we will have a current count that is zero, in which case
+we can skip right to 'ending'. */
+static void
+fct_ts__cnt_end(fct_ts_t *ts)
+{
+ FCT_ASSERT( ts != NULL );
+ FCT_ASSERT( fct_ts__is_cnt_mode(ts) );
+ FCT_ASSERT( !fct_ts__is_end(ts) );
+ if (ts->total_test_num == 0 )
+ {
+ ts->mode = ts_mode_ending;
+ }
+ else
+ {
+ ts->mode = ts_mode_setup;
+ }
+}
+
+
+static nbool_t
+fct_ts__is_test_cnt(fct_ts_t const *ts, int test_num)
+{
+ FCT_ASSERT( ts != NULL );
+ FCT_ASSERT( 0 <= test_num );
+ FCT_ASSERT( test_num < ts->total_test_num );
+ FCT_ASSERT( !fct_ts__is_end(ts) );
+
+ /* As we roll through the tests we increment the count. With this
+ count we can decide if we need to execute a test or not. */
+ return test_num == ts->curr_test_num;
+}
+
+
+/* Returns the # of tests on the FCT TS object. This is the actual
+# of tests executed. */
+static size_t
+fct_ts__tst_cnt(fct_ts_t const *ts)
+{
+ FCT_ASSERT( ts != NULL );
+ FCT_ASSERT(
+ fct_ts__is_end(ts)
+ && "can't count number of tests executed until the test suite ends"
+ );
+ return fct_nlist__size(&(ts->test_list));
+}
+
+
+/* Returns the # of tests in the TS object that passed. */
+static size_t
+fct_ts__tst_cnt_passed(fct_ts_t const *ts)
+{
+ size_t tally =0;
+
+ FCT_ASSERT( ts != NULL );
+ FCT_ASSERT( fct_ts__is_end(ts) );
+
+ FCT_NLIST_FOREACH_BGN(fct_test_t*, test, &(ts->test_list))
+ {
+ if ( fct_test__is_pass(test) )
+ {
+ tally += 1;
+ }
+ }
+ FCT_NLIST_FOREACH_END();
+ return tally;
+}
+
+
+/* Returns the # of checks made throughout a test suite. */
+static size_t
+fct_ts__chk_cnt(fct_ts_t const *ts)
+{
+ size_t tally =0;
+
+ FCT_ASSERT( ts != NULL );
+
+ FCT_NLIST_FOREACH_BGN(fct_test_t *, test, &(ts->test_list))
+ {
+ tally += fct_test__chk_cnt(test);
+ }
+ FCT_NLIST_FOREACH_END();
+ return tally;
+}
+
+/* Currently the duration is simply a sum of all the tests. */
+static double
+fct_ts__duration(fct_ts_t const *ts)
+{
+ double tally =0.0;
+ FCT_ASSERT( ts != NULL );
+ FCT_NLIST_FOREACH_BGN(fct_test_t *, test, &(ts->test_list))
+ {
+ tally += fct_test__duration(test);
+ }
+ FCT_NLIST_FOREACH_END();
+ return tally;
+}
+
+
+/*
+--------------------------------------------------------
+FCT COMMAND LINE OPTION INITIALIZATION (fctcl_init)
+--------------------------------------------------------
+
+Structure used for command line initialization. To keep it clear that we do
+not delete the char*'s present on this structure.
+*/
+
+
+typedef enum
+{
+ FCTCL_STORE_UNDEFINED,
+ FCTCL_STORE_TRUE,
+ FCTCL_STORE_VALUE
+} fctcl_store_t;
+
+
+typedef struct _fctcl_init_t
+{
+ /* What to parse for this option. --long versus -s. */
+ char const *long_opt; /* i.e. --help */
+ char const *short_opt; /* i.e. -h */
+
+ /* What action to take when the option is activated. */
+ fctcl_store_t action;
+
+ /* The help string for the action. */
+ char const *help;
+} fctcl_init_t;
+
+
+/* Use when defining the option list. */
+#define FCTCL_INIT_NULL \
+ {NULL, NULL, FCTCL_STORE_UNDEFINED, NULL}
+
+
+/*
+--------------------------------------------------------
+FCT COMMAND LINE OPTION (fctcl)
+--------------------------------------------------------
+
+Specifies the command line configuration options. Use this
+to help initialize the fct_clp (command line parser).
+*/
+
+
+/* Handy strings for storing "true" and "false". We can reference
+these strings throughout the parse operation and not have to
+worry about dealing with memory. */
+#define FCTCL_TRUE_STR "1"
+
+
+typedef struct _fctcl_t
+{
+ /* What to parse for this option. --long versus -s. */
+ char *long_opt; /* i.e. --help */
+ char *short_opt; /* i.e. -h */
+
+ /* What action to take when the option is activated. */
+ fctcl_store_t action;
+
+ /* The help string for the action. */
+ char *help;
+
+ /* The result. */
+ char *value;
+} fctcl_t;
+
+
+#define fctcl_new() ((fctcl_t*)calloc(1, sizeof(fctcl_t)))
+
+
+static void
+fctcl__del(fctcl_t *clo)
+{
+ if ( clo == NULL )
+ {
+ return;
+ }
+ if ( clo->long_opt )
+ {
+ free(clo->long_opt);
+ }
+ if ( clo->short_opt)
+ {
+ free(clo->short_opt);
+ }
+ if ( clo->value )
+ {
+ free(clo->value);
+ }
+ if ( clo->help )
+ {
+ free(clo->help);
+ }
+ free(clo);
+}
+
+
+static fctcl_t*
+fctcl_new2(fctcl_init_t const *clo_init)
+{
+ fctcl_t *clone = NULL;
+ int ok =0;
+ clone = fctcl_new();
+ if ( clone == NULL )
+ {
+ return NULL;
+ }
+ clone->action = clo_init->action;
+ if ( clo_init->help == NULL )
+ {
+ clone->help = NULL;
+ }
+ else
+ {
+ clone->help = fctstr_clone(clo_init->help);
+ if ( clone->help == NULL )
+ {
+ ok =0;
+ goto finally;
+ }
+ }
+ if ( clo_init->long_opt == NULL )
+ {
+ clone->long_opt = NULL;
+ }
+ else
+ {
+ clone->long_opt = fctstr_clone(clo_init->long_opt);
+ if ( clone->long_opt == NULL )
+ {
+ ok = 0;
+ goto finally;
+ }
+ }
+ if ( clo_init->short_opt == NULL )
+ {
+ clone->short_opt = NULL;
+ }
+ else
+ {
+ clone->short_opt = fctstr_clone(clo_init->short_opt);
+ if ( clone->short_opt == NULL )
+ {
+ ok =0;
+ goto finally;
+ }
+ }
+ ok = 1;
+finally:
+ if ( !ok )
+ {
+ fctcl__del(clone);
+ clone = NULL;
+ }
+ return clone;
+}
+
+
+static int
+fctcl__is_option(fctcl_t const *clo, char const *option)
+{
+ FCT_ASSERT( clo != NULL );
+ if ( option == NULL )
+ {
+ return 0;
+ }
+ return ((clo->long_opt != NULL
+ && fctstr_eq(clo->long_opt, option))
+ ||
+ (clo->short_opt != NULL
+ && fctstr_eq(clo->short_opt, option))
+ );
+}
+
+
+#define fctcl__set_value(_CLO_, _VAL_) \
+ (_CLO_)->value = fctstr_clone((_VAL_));
+
+/*
+--------------------------------------------------------
+FCT COMMAND PARSER (fct_clp)
+--------------------------------------------------------
+*/
+
+#define FCT_CLP_MAX_ERR_MSG_LEN 256
+
+typedef struct _fct_clp_t
+{
+ /* List of command line options. */
+ fct_nlist_t clo_list;
+
+ /* List of parameters (not options). */
+ fct_nlist_t param_list;
+
+ char error_msg[FCT_CLP_MAX_ERR_MSG_LEN];
+ int is_error;
+} fct_clp_t;
+
+
+static void
+fct_clp__final(fct_clp_t *clp)
+{
+ fct_nlist__final(&(clp->clo_list), (fct_nlist_on_del_t)fctcl__del);
+ fct_nlist__final(&(clp->param_list), (fct_nlist_on_del_t)free);
+}
+
+
+/* Add an configuration options. */
+static int
+fct_clp__add_options(fct_clp_t *clp, fctcl_init_t const *options)
+{
+ fctcl_init_t const *pclo =NULL;
+ int ok;
+ for ( pclo = options; pclo->action != FCTCL_STORE_UNDEFINED; ++pclo )
+ {
+ fctcl_t *cpy = fctcl_new2(pclo);
+ if ( cpy == NULL )
+ {
+ ok = 0;
+ goto finally;
+ }
+ fct_nlist__append(&(clp->clo_list), (void*)cpy);
+ }
+ ok =1;
+finally:
+ return ok;
+}
+
+/* Returns false if we ran out of memory. */
+static int
+fct_clp__init(fct_clp_t *clp, fctcl_init_t const *options)
+{
+ int ok =0;
+ FCT_ASSERT( clp != NULL );
+ /* It is just much saner to manage a clone of the options. Then we know
+ who is in charge of the memory. */
+ ok = fct_nlist__init(&(clp->clo_list));
+ if ( !ok )
+ {
+ goto finally;
+ }
+ if ( options != NULL )
+ {
+ ok = fct_clp__add_options(clp, options);
+ if ( !ok )
+ {
+ goto finally;
+ }
+ }
+ ok = fct_nlist__init(&(clp->param_list));
+ if ( !ok )
+ {
+ goto finally;
+ }
+ ok =1;
+finally:
+ if ( !ok )
+ {
+ fct_clp__final(clp);
+ }
+ return ok;
+}
+
+
+/* Parses the command line arguments. Use fct_clp__is_error and
+fct_clp__get_error to figure out if something went awry. */
+static void
+fct_clp__parse(fct_clp_t *clp, int argc, char const *argv[])
+{
+ int argi =1;
+ int is_option =0;
+ char *arg =NULL;
+ char *token =NULL;
+ char *next_token =NULL;
+
+ clp->error_msg[0] = '\0';
+ clp->is_error =0;
+
+ while ( argi < argc )
+ {
+ is_option =0;
+ token =NULL;
+ next_token = NULL;
+ arg = fctstr_clone(argv[argi]);
+
+#if defined(_MSC_VER) && _MSC_VER > 1300
+ token = strtok_s(arg, "=", &next_token);
+#else
+ token = strtok(arg, "=");
+ next_token = strtok(NULL, "=");
+#endif
+
+ FCT_NLIST_FOREACH_BGN(fctcl_t*, pclo, &(clp->clo_list))
+ {
+ /* Need to reset for each search. strtok below is destructive. */
+ if ( fctcl__is_option(pclo, token) )
+ {
+ is_option =1;
+ if ( pclo->action == FCTCL_STORE_VALUE )
+ {
+ /* If this is --xxxx=value then the next strtok should succeed.
+ Otherwise, we need to chew up the next argument. */
+ if ( next_token != NULL && strlen(next_token) > 0 )
+ {
+ fctcl__set_value(pclo, next_token);
+ }
+ else
+ {
+ ++argi; /* Chew up the next value */
+ if ( argi >= argc )
+ {
+ /* error */
+ fct_snprintf(
+ clp->error_msg,
+ FCT_CLP_MAX_ERR_MSG_LEN,
+ "missing argument for %s",
+ token
+ );
+ clp->is_error =1;
+ break;
+ }
+ fctcl__set_value(pclo, argv[argi]);
+ }
+ }
+ else if (pclo->action == FCTCL_STORE_TRUE)
+ {
+ fctcl__set_value(pclo, FCTCL_TRUE_STR);
+ }
+ else
+ {
+ FCT_ASSERT("undefined action requested");
+ }
+ break; /* No need to parse this argument further. */
+ }
+ }
+ FCT_NLIST_FOREACH_END();
+ /* If we have an error, exit. */
+ if ( clp->is_error )
+ {
+ break;
+ }
+ /* If we walked through all the options, and didn't find
+ anything, then we must have a parameter. Forget the fact that
+ an unknown option will be treated like a parameter... */
+ if ( !is_option )
+ {
+ fct_nlist__append(&(clp->param_list), arg);
+ arg =NULL; /* Owned by the nlist */
+ }
+ ++argi;
+ if ( arg != NULL )
+ {
+ free(arg);
+ arg =NULL;
+ }
+ }
+}
+
+
+static fctcl_t const*
+fct_clp__get_clo(fct_clp_t const *clp, char const *option)
+{
+ fctcl_t const *found =NULL;
+
+ FCT_NLIST_FOREACH_BGN(fctcl_t const*, pclo, &(clp->clo_list))
+ {
+ if ( fctcl__is_option(pclo, option) )
+ {
+ found = pclo;
+ break;
+ }
+ }
+ FCT_NLIST_FOREACH_END();
+ return found;
+}
+
+
+#define fct_clp__optval(_CLP_, _OPTION_) \
+ fct_clp__optval2((_CLP_), (_OPTION_), NULL)
+
+
+/* Returns the value parsed at the command line, and equal to OPTION.
+If the value wasn't parsed, the DEFAULT_VAL is returned instead. */
+static char const*
+fct_clp__optval2(fct_clp_t *clp, char const *option, char const *default_val)
+{
+ fctcl_t const *clo =NULL;
+ FCT_ASSERT( clp != NULL );
+ FCT_ASSERT( option != NULL );
+ clo = fct_clp__get_clo(clp, option);
+ if ( clo == NULL || clo->value == NULL)
+ {
+ return default_val;
+ }
+ return clo->value;
+}
+
+
+
+/* Mainly used for unit tests. */
+static int
+fct_clp__is_param(fct_clp_t *clp, char const *param)
+{
+ if ( clp == NULL || param == NULL )
+ {
+ return 0;
+ }
+ FCT_NLIST_FOREACH_BGN(char *, aparam, &(clp->param_list))
+ {
+ if ( fctstr_eq(aparam, param) )
+ {
+ return 1;
+ }
+ }
+ FCT_NLIST_FOREACH_END();
+ return 0;
+}
+
+
+#define fct_clp__is_error(_CLP_) ((_CLP_)->is_error)
+#define fct_clp__get_error(_CLP_) ((_CLP_)->error_msg);
+
+#define fct_clp__num_clo(_CLP_) \
+ (fct_nlist__size(&((_CLP_)->clo_list)))
+
+#define fct_clp__param_cnt(_CLP_) \
+ (fct_nlist__size(&((_CLP_)->param_list)))
+
+/* Returns a *reference* to the parameter at _IDX_. Do not modify
+its contents. */
+#define fct_clp__param_at(_CLP_, _IDX_) \
+ ((char const*)fct_nlist__at(&((_CLP_)->param_list), (_IDX_)))
+
+
+/* Returns true if the given option was on the command line.
+Use either the long or short option name to check against. */
+#define fct_clp__is(_CLP_, _OPTION_) \
+ (fct_clp__optval((_CLP_), (_OPTION_)) != NULL)
+
+
+
+/*
+--------------------------------------------------------
+FCT NAMESPACE
+--------------------------------------------------------
+
+The macros below start to pollute the watch window with
+lots of "system" variables. This NAMESPACE is an
+attempt to hide all the "system" variables in one place.
+*/
+typedef struct _fct_namespace_t
+{
+ /* The currently active test suite. */
+ fct_ts_t *ts_curr;
+ int ts_is_skip_suite;
+ char const *ts_skip_cndtn;
+
+ /* Current test name. */
+ char const* curr_test_name;
+ fct_test_t *curr_test;
+ const char *test_skip_cndtn;
+ int test_is_skip;
+
+ /* Counts the number of tests in a test suite. */
+ int test_num;
+
+ /* Set at the end of the test suites. */
+ size_t num_total_failed;
+} fct_namespace_t;
+
+
+static void
+fct_namespace_init(fct_namespace_t *ns)
+{
+ FCT_ASSERT( ns != NULL && "invalid argument!");
+ memset(ns, 0, sizeof(fct_namespace_t));
+}
+
+
+/*
+--------------------------------------------------------
+FCT KERNAL
+--------------------------------------------------------
+
+The "fctkern" is a singleton that is defined throughout the
+system.
+*/
+
+struct _fctkern_t
+{
+ /* Holds variables used throughout MACRO MAGIC. In order to reduce
+ the "noise" in the watch window during a debug trace. */
+ fct_namespace_t ns;
+
+ /* Command line parsing. */
+ fct_clp_t cl_parser;
+
+ /* Hold onto the command line arguments. */
+ int cl_argc;
+ char const **cl_argv;
+ /* Track user options. */
+ fctcl_init_t const *cl_user_opts;
+
+ /* Tracks the delay parsing. */
+ int cl_is_parsed;
+
+ /* This is an list of loggers that can be used in the fct system. */
+ fct_nlist_t logger_list;
+
+ /* Array of custom types, you have built-in system ones and you
+ have optionally supplied user ones.. */
+ fct_logger_types_t *lt_usr;
+ fct_logger_types_t *lt_sys;
+
+ /* This is a list of prefix's that can be used to determine if a
+ test is should be run or not. */
+ fct_nlist_t prefix_list;
+
+ /* This is a list of test suites that where generated throughout the
+ testing process. */
+ fct_nlist_t ts_list;
+
+ /* Records what we expect to fail. */
+ size_t num_expected_failures;
+};
+
+
+#define FCT_OPT_VERSION "--version"
+#define FCT_OPT_VERSION_SHORT "-v"
+#define FCT_OPT_HELP "--help"
+#define FCT_OPT_HELP_SHORT "-h"
+#define FCT_OPT_LOGGER "--logger"
+#define FCT_OPT_LOGGER_SHORT "-l"
+static fctcl_init_t FCT_CLP_OPTIONS[] =
+{
+ /* Totally unsafe, since we are assuming we can clean out this data,
+ what I need to do is have an "initialization" object, full of
+ const objects. But for now, this should work. */
+ {
+ FCT_OPT_VERSION,
+ FCT_OPT_VERSION_SHORT,
+ FCTCL_STORE_TRUE,
+ "Displays the FCTX version number and exits."
+ },
+ {
+ FCT_OPT_HELP,
+ FCT_OPT_HELP_SHORT,
+ FCTCL_STORE_TRUE,
+ "Shows this help."
+ },
+ {
+ FCT_OPT_LOGGER,
+ FCT_OPT_LOGGER_SHORT,
+ FCTCL_STORE_VALUE,
+ NULL
+ },
+ FCTCL_INIT_NULL /* Sentinel */
+};
+
+typedef fct_logger_i* (*fct_logger_new_fn)(void);
+struct _fct_logger_types_t
+{
+ char const *name;
+ fct_logger_new_fn logger_new_fn;
+ char const *desc;
+};
+
+static fct_logger_types_t FCT_LOGGER_TYPES[] =
+{
+ {
+ "standard",
+ (fct_logger_new_fn)fct_standard_logger_new,
+ "the basic fctx logger"
+ },
+ {
+ "minimal",
+ (fct_logger_new_fn)fct_minimal_logger_new,
+ "the least amount of logging information."
+ },
+ {
+ "junit",
+ (fct_logger_new_fn)fct_junit_logger_new,
+ "junit compatable xml"
+ },
+ {NULL, (fct_logger_new_fn)NULL, NULL} /* Sentinel */
+};
+
+
+/* Returns the number of filters defined for the fct kernal. */
+#define fctkern__filter_cnt(_NK_) (fct_nlist__size(&((_NK_)->prefix_list)))
+
+
+static void
+fctkern__add_logger(fctkern_t *nk, fct_logger_i *logger_owns)
+{
+ FCT_ASSERT(nk != NULL && "invalid arg");
+ FCT_ASSERT(logger_owns != NULL && "invalid arg");
+ fct_nlist__append(&(nk->logger_list), logger_owns);
+}
+
+
+static void
+fctkern__write_help(fctkern_t *nk, FILE *out)
+{
+ fct_clp_t *clp = &(nk->cl_parser);
+ fprintf(out, "test.exe [options] prefix_filter ...\n\n");
+ FCT_NLIST_FOREACH_BGN(fctcl_t*, clo, &(clp->clo_list))
+ {
+ if ( clo->short_opt != NULL )
+ {
+ fprintf(out, "%s, %s\n", clo->short_opt, clo->long_opt);
+ }
+ else
+ {
+ fprintf(out, "%s\n", clo->long_opt);
+ }
+ if ( !fctstr_ieq(clo->long_opt, FCT_OPT_LOGGER) )
+ {
+ /* For now lets not get to fancy with the text wrapping. */
+ fprintf(out, " %s\n", clo->help);
+ }
+ else
+ {
+ fct_logger_types_t *types[2];
+ int type_i;
+ fct_logger_types_t *itr;
+ types[0] = nk->lt_sys;
+ types[1] = nk->lt_usr;
+ fputs(" Sets the logger. The types of loggers currently "
+ "available are,\n", out);
+ for (type_i =0; type_i != 2; ++type_i )
+ {
+ for ( itr=types[type_i]; itr && itr->name != NULL; ++itr )
+ {
+ fprintf(out, " =%s : %s\n", itr->name, itr->desc);
+ }
+ }
+ fprintf(out, " default is '%s'.\n", FCT_DEFAULT_LOGGER);
+ }
+ }
+ FCT_NLIST_FOREACH_END();
+ fputs("\n", out);
+}
+
+
+/* Appends a prefix filter that is used to determine if a test can
+be executed or not. If the test starts with the same characters as
+the prefix, then it should be "runnable". The prefix filter must be
+a non-NULL, non-Blank string. */
+static void
+fctkern__add_prefix_filter(fctkern_t *nk, char const *prefix_filter)
+{
+ char *filter =NULL;
+ size_t filter_len =0;
+ FCT_ASSERT( nk != NULL && "invalid arg" );
+ FCT_ASSERT( prefix_filter != NULL && "invalid arg" );
+ FCT_ASSERT( strlen(prefix_filter) > 0 && "invalid arg" );
+ /* First we make a copy of the prefix, then we store it away
+ in our little list. */
+ filter_len = strlen(prefix_filter);
+ filter = (char*)malloc(sizeof(char)*(filter_len+1));
+ fctstr_safe_cpy(filter, prefix_filter, filter_len+1);
+ fct_nlist__append(&(nk->prefix_list), (void*)filter);
+}
+
+
+/* Cleans up the contents of a fctkern. NULL does nothing. */
+static void
+fctkern__final(fctkern_t *nk)
+{
+ if ( nk == NULL )
+ {
+ return;
+ }
+ fct_clp__final(&(nk->cl_parser));
+ fct_nlist__final(&(nk->logger_list), (fct_nlist_on_del_t)fct_logger__del);
+ /* The prefix list is a list of malloc'd strings. */
+ fct_nlist__final(&(nk->prefix_list), (fct_nlist_on_del_t)free);
+ fct_nlist__final(&(nk->ts_list), (fct_nlist_on_del_t)fct_ts__del);
+}
+
+
+#define fctkern__cl_is_parsed(_NK_) ((_NK_)->cl_is_parsed)
+
+
+static int
+fctkern__cl_is(fctkern_t *nk, char const *opt_str)
+{
+ FCT_ASSERT( opt_str != NULL );
+ return opt_str[0] != '\0'
+ && fct_clp__is(&(nk->cl_parser), opt_str);
+}
+
+
+/* Returns the command line value given by OPT_STR. If OPT_STR was not defined
+at the command line, DEF_STR is returned (you can use NULL for the DEF_STR).
+The result returned should not be mofidied, and MAY even be the same pointer
+to DEF_STR. */
+static char const *
+fctkern__cl_val2(fctkern_t *nk, char const *opt_str, char const *def_str)
+{
+ FCT_ASSERT( opt_str != NULL );
+ if ( nk == NULL )
+ {
+ return NULL;
+ }
+ return fct_clp__optval2(&(nk->cl_parser), opt_str, def_str);
+}
+
+
+/* Selects a logger from the list based on the selection name.
+May return NULL if the name doesn't exist in the list. */
+static fct_logger_i*
+fckern_sel_log(fct_logger_types_t *search, char const *sel_logger)
+{
+ fct_logger_types_t *iter;
+ FCT_ASSERT(search != NULL);
+ FCT_ASSERT(sel_logger != NULL);
+ FCT_ASSERT(strlen(sel_logger) > 0);
+ for ( iter = search; iter->name != NULL; ++iter)
+ {
+ if ( fctstr_ieq(iter->name, sel_logger) )
+ {
+ return iter->logger_new_fn();
+ }
+ }
+ return NULL;
+}
+
+static int
+fctkern__cl_parse_config_logger(fctkern_t *nk)
+{
+ fct_logger_i *logger =NULL;
+ char const *sel_logger =NULL;
+ char const *def_logger =FCT_DEFAULT_LOGGER;
+ sel_logger = fctkern__cl_val2(nk, FCT_OPT_LOGGER, def_logger);
+ FCT_ASSERT(sel_logger != NULL && "should never be NULL");
+ /* First search the user selected types, then search the
+ built-in types. */
+ if ( nk->lt_usr != NULL )
+ {
+ logger = fckern_sel_log(nk->lt_usr, sel_logger);
+ }
+ if ( nk->lt_sys != NULL && logger == NULL )
+ {
+ logger = fckern_sel_log(nk->lt_sys, sel_logger);
+ }
+ if ( logger == NULL )
+ {
+ /* No logger configured, you must have supplied an invalid selection. */
+ fprintf(stderr, "error: unknown logger selected - '%s'", sel_logger);
+ return 0;
+ }
+ fctkern__add_logger(nk, logger);
+ logger = NULL; /* owned by nk. */
+ return 1;
+}
+
+
+
+/* Call this if you want to (re)parse the command line options with a new
+set of options. Returns -1 if you are to abort with EXIT_SUCCESS, returns
+0 if you are to abort with EXIT_FAILURE and returns 1 if you are to continue. */
+static int
+fctkern__cl_parse(fctkern_t *nk)
+{
+ int status =0;
+ size_t num_params =0;
+ size_t param_i =0;
+ if ( nk == NULL )
+ {
+ return 0;
+ }
+ if ( nk->cl_user_opts != NULL )
+ {
+ if ( !fct_clp__add_options(&(nk->cl_parser), nk->cl_user_opts) )
+ {
+ status =0;
+ goto finally;
+ }
+ }
+ /* You want to add the "house options" after the user defined ones. The
+ options are stored as a list so it means that any option listed after
+ the above ones won't get parsed. */
+ if ( !fct_clp__add_options(&(nk->cl_parser), FCT_CLP_OPTIONS) )
+ {
+ status =0;
+ goto finally;
+ }
+ fct_clp__parse(&(nk->cl_parser), nk->cl_argc, nk->cl_argv);
+ if ( fct_clp__is_error(&(nk->cl_parser)) )
+ {
+ char *err = fct_clp__get_error(&(nk->cl_parser));
+ fprintf(stderr, "error: %s", err);
+ status =0;
+ goto finally;
+ }
+ num_params = fct_clp__param_cnt(&(nk->cl_parser));
+ for ( param_i =0; param_i != num_params; ++param_i )
+ {
+ char const *param = fct_clp__param_at(&(nk->cl_parser), param_i);
+ fctkern__add_prefix_filter(nk, param);
+ }
+ if ( fctkern__cl_is(nk, FCT_OPT_VERSION) )
+ {
+ (void)printf("Built using FCTX version %s.\n", FCT_VERSION_STR);
+ status = -1;
+ goto finally;
+ }
+ if ( fctkern__cl_is(nk, FCT_OPT_HELP) )
+ {
+ fctkern__write_help(nk, stdout);
+ status = -1;
+ goto finally;
+ }
+ if ( !fctkern__cl_parse_config_logger(nk) )
+ {
+ status = -1;
+ goto finally;
+ }
+ status =1;
+ nk->cl_is_parsed =1;
+finally:
+ return status;
+}
+
+
+
+/* Parses the command line and sets up the framework. The argc and argv
+should be directly from the program's main. */
+static int
+fctkern__init(fctkern_t *nk, int argc, const char *argv[])
+{
+ if ( argc == 0 && argv == NULL )
+ {
+ return 0;
+ }
+ memset(nk, 0, sizeof(fctkern_t));
+ fct_clp__init(&(nk->cl_parser), NULL);
+ fct_nlist__init(&(nk->logger_list));
+ nk->lt_usr = NULL; /* Supplied via 'install' mechanics. */
+ nk->lt_sys = FCT_LOGGER_TYPES;
+ fct_nlist__init2(&(nk->prefix_list), 0);
+ fct_nlist__init2(&(nk->ts_list), 0);
+ nk->cl_is_parsed =0;
+ /* Save a copy of the arguments. We do a delay parse of the command
+ line arguments in order to allow the client code to optionally configure
+ the command line parser.*/
+ nk->cl_argc = argc;
+ nk->cl_argv = argv;
+ fct_namespace_init(&(nk->ns));
+ return 1;
+}
+
+
+/* Takes OWNERSHIP of the test suite after we have finished executing
+its contents. This way we can build up all kinds of summaries at the end
+of a run. */
+static void
+fctkern__add_ts(fctkern_t *nk, fct_ts_t *ts)
+{
+ FCT_ASSERT( nk != NULL );
+ FCT_ASSERT( ts != NULL );
+ fct_nlist__append(&(nk->ts_list), ts);
+}
+
+
+/* Returns FCT_TRUE if the supplied test_name passes the filters set on
+this test suite. If there are no filters, we return FCT_TRUE always. */
+static nbool_t
+fctkern__pass_filter(fctkern_t *nk, char const *test_name)
+{
+ size_t prefix_i =0;
+ size_t prefix_list_size =0;
+ FCT_ASSERT( nk != NULL && "invalid arg");
+ FCT_ASSERT( test_name != NULL );
+ FCT_ASSERT( strlen(test_name) > 0 );
+ prefix_list_size = fctkern__filter_cnt(nk);
+ /* If there is no filter list, then we return FCT_TRUE always. */
+ if ( prefix_list_size == 0 )
+ {
+ return FCT_TRUE;
+ }
+ /* Iterate through the prefix filter list, and see if we have
+ anything that does not pass. All we require is ONE item that
+ passes the test in order for us to succeed here. */
+ for ( prefix_i = 0; prefix_i != prefix_list_size; ++prefix_i )
+ {
+ char const *prefix = (char const*)fct_nlist__at(
+ &(nk->prefix_list), prefix_i
+ );
+ nbool_t pass = fct_filter_pass(prefix, test_name);
+ if ( pass )
+ {
+ return FCT_TRUE;
+ }
+ }
+ /* Otherwise, we never managed to find a prefix that satisfied the
+ supplied test name. Therefore we have failed to pass to the filter
+ list test. */
+ return FCT_FALSE;
+}
+
+
+/* Returns the number of tests that were performed. */
+static size_t
+fctkern__tst_cnt(fctkern_t const *nk)
+{
+ size_t tally =0;
+ FCT_ASSERT( nk != NULL );
+ FCT_NLIST_FOREACH_BGN(fct_ts_t *, ts, &(nk->ts_list))
+ {
+ tally += fct_ts__tst_cnt(ts);
+ }
+ FCT_NLIST_FOREACH_END();
+ return tally;
+}
+
+
+/* Returns the number of tests that passed. */
+static size_t
+fctkern__tst_cnt_passed(fctkern_t const *nk)
+{
+ size_t tally =0;
+ FCT_ASSERT( nk != NULL );
+
+ FCT_NLIST_FOREACH_BGN(fct_ts_t*, ts, &(nk->ts_list))
+ {
+ tally += fct_ts__tst_cnt_passed(ts);
+ }
+ FCT_NLIST_FOREACH_END();
+
+ return tally;
+}
+
+
+/* Returns the number of tests that failed. */
+#define fctkern__tst_cnt_failed(nk) \
+ (fctkern__tst_cnt(nk) - fctkern__tst_cnt_passed(nk))
+
+
+/* Returns the number of checks made throughout the entire test. */
+#if defined(FCT_USE_TEST_COUNT)
+static size_t
+fctkern__chk_cnt(fctkern_t const *nk)
+{
+ size_t tally =0;
+ FCT_ASSERT( nk != NULL );
+
+ FCT_NLIST_FOREACH_BGN(fct_ts_t *, ts, &(nk->ts_list))
+ {
+ tally += fct_ts__chk_cnt(ts);
+ }
+ FCT_NLIST_FOREACH_END();
+ return tally;
+}
+#endif /* FCT_USE_TEST_COUNT */
+
+
+/* Indicates the very end of all the tests. */
+#define fctkern__end(nk) /* unused */
+
+
+static void
+fctkern__log_suite_start(fctkern_t *nk, fct_ts_t const *ts)
+{
+ FCT_ASSERT( nk != NULL );
+ FCT_ASSERT( ts != NULL );
+ FCT_NLIST_FOREACH_BGN(fct_logger_i*, logger, &(nk->logger_list))
+ {
+ fct_logger__on_test_suite_start(logger, ts);
+ }
+ FCT_NLIST_FOREACH_END();
+}
+
+
+static void
+fctkern__log_suite_end(fctkern_t *nk, fct_ts_t const *ts)
+{
+ FCT_ASSERT( nk != NULL );
+ FCT_ASSERT( ts != NULL );
+ FCT_NLIST_FOREACH_BGN(fct_logger_i*, logger, &(nk->logger_list))
+ {
+ fct_logger__on_test_suite_end(logger, ts);
+ }
+ FCT_NLIST_FOREACH_END();
+}
+
+
+static void
+fctkern__log_suite_skip(fctkern_t *nk, char const *condition, char const *name)
+{
+ if ( nk == NULL )
+ {
+ return;
+ }
+ FCT_NLIST_FOREACH_BGN(fct_logger_i*, logger, &(nk->logger_list))
+ {
+ fct_logger__on_test_suite_skip(logger, condition, name);
+ }
+ FCT_NLIST_FOREACH_END();
+}
+
+
+static void
+fctkern__log_test_skip(fctkern_t *nk, char const *condition, char const *name)
+{
+ FCT_NLIST_FOREACH_BGN(fct_logger_i*, logger, &(nk->logger_list))
+ {
+ fct_logger__on_test_skip(logger, condition, name);
+ }
+ FCT_NLIST_FOREACH_END();
+}
+
+
+/* Use this for displaying information about a "Check" (i.e.
+a condition). */
+static void
+fctkern__log_chk(fctkern_t *nk, fctchk_t const *chk)
+{
+ FCT_ASSERT( nk != NULL );
+ FCT_ASSERT( chk != NULL );
+ FCT_NLIST_FOREACH_BGN(fct_logger_i*, logger, &(nk->logger_list))
+ {
+ fct_logger__on_chk(logger, chk);
+ }
+ FCT_NLIST_FOREACH_END();
+}
+
+
+/* Use this for displaying warning messages. */
+static void
+fctkern__log_warn(fctkern_t *nk, char const *warn)
+{
+ FCT_ASSERT( nk != NULL );
+ FCT_ASSERT( warn != NULL );
+ FCT_NLIST_FOREACH_BGN(fct_logger_i*, logger, &(nk->logger_list))
+ {
+ fct_logger__on_warn(logger, warn);
+ }
+ FCT_NLIST_FOREACH_END();
+}
+
+
+/* Called whenever a test is started. */
+static void
+fctkern__log_test_start(fctkern_t *nk, fct_test_t const *test)
+{
+ FCT_ASSERT( nk != NULL );
+ FCT_ASSERT( test != NULL );
+ FCT_NLIST_FOREACH_BGN(fct_logger_i*, logger, &(nk->logger_list))
+ {
+ fct_logger__on_test_start(logger, test);
+ }
+ FCT_NLIST_FOREACH_END();
+}
+
+
+static void
+fctkern__log_test_end(fctkern_t *nk, fct_test_t *test)
+{
+ FCT_ASSERT( nk != NULL );
+ FCT_ASSERT( test != NULL );
+ FCT_NLIST_FOREACH_BGN(fct_logger_i*, logger, &(nk->logger_list))
+ {
+ fct_logger__on_test_end(logger, test);
+ }
+ FCT_NLIST_FOREACH_END();
+}
+
+
+#define fctkern__log_start(_NK_) \
+ {\
+ FCT_NLIST_FOREACH_BGN(fct_logger_i*, logger, &((_NK_)->logger_list))\
+ {\
+ fct_logger__on_fctx_start(logger, (_NK_));\
+ }\
+ FCT_NLIST_FOREACH_END();\
+ }
+
+
+#define fctkern__log_end(_NK_) \
+ {\
+ FCT_NLIST_FOREACH_BGN(fct_logger_i*, logger, &((_NK_)->logger_list))\
+ {\
+ fct_logger__on_fctx_end(logger, (_NK_));\
+ }\
+ FCT_NLIST_FOREACH_END();\
+ }
+
+
+
+
+/*
+-----------------------------------------------------------
+LOGGER INTERFACE
+
+Defines an interface to a logging system. A logger
+must define the following functions in order to hook
+into the logging system.
+
+See the "Standard Logger" and "Minimal Logger" as examples
+of the implementation.
+-----------------------------------------------------------
+*/
+
+/* Common event argument. The values of the each event may or may not be
+defined depending on the event in question. */
+struct _fct_logger_evt_t
+{
+ fctkern_t const *kern;
+ fctchk_t const *chk;
+ fct_test_t const *test;
+ fct_ts_t const *ts;
+ char const *msg;
+ char const *cndtn;
+ char const *name;
+};
+
+
+typedef struct _fct_logger_i_vtable_t
+{
+ /* 1
+ * Fired when an "fct_chk*" (check) function is completed. The event
+ * will contain a reference to the "chk" object created.
+ * */
+ void (*on_chk)(fct_logger_i *logger, fct_logger_evt_t const *e);
+
+ /* 2
+ * Fired when a test starts and before any checks are made. The
+ * event will have its "test" object set. */
+ void (*on_test_start)(
+ fct_logger_i *logger,
+ fct_logger_evt_t const *e
+ );
+ /* 3 */
+ void (*on_test_end)(
+ fct_logger_i *logger,
+ fct_logger_evt_t const *e
+ );
+ /* 4 */
+ void (*on_test_suite_start)(
+ fct_logger_i *logger,
+ fct_logger_evt_t const *e
+ );
+ /* 5 */
+ void (*on_test_suite_end)(
+ fct_logger_i *logger,
+ fct_logger_evt_t const *e
+ );
+ /* 6 */
+ void (*on_fctx_start)(
+ fct_logger_i *logger,
+ fct_logger_evt_t const *e
+ );
+ /* 7 */
+ void (*on_fctx_end)(
+ fct_logger_i *logger,
+ fct_logger_evt_t const *e
+ );
+ /* 8
+ Called when the logger object must "clean up". */
+ void (*on_delete)(
+ fct_logger_i *logger,
+ fct_logger_evt_t const *e
+ );
+ /* 9 */
+ void (*on_warn)(
+ fct_logger_i *logger,
+ fct_logger_evt_t const *e
+ );
+ /* -- new in 1.2 -- */
+ /* 10 */
+ void (*on_test_suite_skip)(
+ fct_logger_i *logger,
+ fct_logger_evt_t const *e
+ );
+ /* 11 */
+ void (*on_test_skip)(
+ fct_logger_i *logger,
+ fct_logger_evt_t const *e
+ );
+} fct_logger_i_vtable_t;
+
+#define _fct_logger_head \
+ fct_logger_i_vtable_t vtable; \
+ fct_logger_evt_t evt
+
+struct _fct_logger_i
+{
+ _fct_logger_head;
+};
+
+
+static void
+fct_logger__stub(fct_logger_i *l, fct_logger_evt_t const *e)
+{
+ fct_unused(l);
+ fct_unused(e);
+}
+
+
+static fct_logger_i_vtable_t fct_logger_default_vtable =
+{
+ fct_logger__stub, /* 1. on_chk */
+ fct_logger__stub, /* 2. on_test_start */
+ fct_logger__stub, /* 3. on_test_end */
+ fct_logger__stub, /* 4. on_test_suite_start */
+ fct_logger__stub, /* 5. on_test_suite_end */
+ fct_logger__stub, /* 6. on_fctx_start */
+ fct_logger__stub, /* 7. on_fctx_end */
+ fct_logger__stub, /* 8. on_delete */
+ fct_logger__stub, /* 9. on_warn */
+ fct_logger__stub, /* 10. on_test_suite_skip */
+ fct_logger__stub, /* 11. on_test_skip */
+};
+
+
+/* Initializes the elements of a logger interface so they are at their
+standard values. */
+static void
+fct_logger__init(fct_logger_i *logger)
+{
+ FCT_ASSERT( logger != NULL );
+ memcpy(
+ &(logger->vtable),
+ &fct_logger_default_vtable,
+ sizeof(fct_logger_i_vtable_t)
+ );
+ memset(&(logger->evt),0, sizeof(fct_logger_evt_t));
+}
+
+static void
+fct_logger__del(fct_logger_i *logger)
+{
+ if ( logger )
+ {
+ logger->vtable.on_delete(logger, &(logger->evt));
+ }
+}
+
+
+static void
+fct_logger__on_test_start(fct_logger_i *logger, fct_test_t const *test)
+{
+ logger->evt.test = test;
+ logger->vtable.on_test_start(logger, &(logger->evt));
+}
+
+
+static void
+fct_logger__on_test_end(fct_logger_i *logger, fct_test_t *test)
+{
+ logger->evt.test = test;
+ logger->vtable.on_test_end(logger, &(logger->evt));
+}
+
+
+static void
+fct_logger__on_test_suite_start(fct_logger_i *logger, fct_ts_t const *ts)
+{
+ logger->evt.ts = ts;
+ logger->vtable.on_test_suite_start(logger, &(logger->evt));
+}
+
+
+static void
+fct_logger__on_test_suite_end(fct_logger_i *logger, fct_ts_t const *ts)
+{
+ logger->evt.ts = ts;
+ logger->vtable.on_test_suite_end(logger, &(logger->evt));
+}
+
+
+static void
+fct_logger__on_test_suite_skip(
+ fct_logger_i *logger,
+ char const *condition,
+ char const *name
+)
+{
+ logger->evt.cndtn = condition;
+ logger->evt.name = name;
+ logger->vtable.on_test_suite_skip(logger, &(logger->evt));
+}
+
+
+static void
+fct_logger__on_test_skip(
+ fct_logger_i *logger,
+ char const *condition,
+ char const *name
+)
+{
+ logger->evt.cndtn = condition;
+ logger->evt.name = name;
+ logger->vtable.on_test_skip(logger, &(logger->evt));
+}
+
+
+static void
+fct_logger__on_chk(fct_logger_i *logger, fctchk_t const *chk)
+{
+ logger->evt.chk = chk;
+ logger->vtable.on_chk(logger, &(logger->evt));
+}
+
+/* When we start all our tests. */
+#define fct_logger__on_fctx_start(LOGGER, KERN) \
+ (LOGGER)->evt.kern = (KERN);\
+ (LOGGER)->vtable.on_fctx_start((LOGGER), &((LOGGER)->evt));
+
+
+/* When we have reached the end of ALL of our testing. */
+#define fct_logger__on_fctx_end(LOGGER, KERN) \
+ (LOGGER)->evt.kern = (KERN);\
+ (LOGGER)->vtable.on_fctx_end((LOGGER), &((LOGGER)->evt));
+
+
+static void
+fct_logger__on_warn(fct_logger_i *logger, char const *msg)
+{
+ logger->evt.msg = msg;
+ logger->vtable.on_warn(logger, &(logger->evt));
+}
+
+
+/* Commmon routine to record strings representing failures. The
+chk should be a failure before we call this, and the list is a list
+of char*'s that will eventually be free'd by the logger. */
+static void
+fct_logger_record_failure(fctchk_t const* chk, fct_nlist_t* fail_list)
+{
+ /* For now we will truncate the string to some set amount, later
+ we can work out a dynamic string object. */
+ char *str = (char*)malloc(sizeof(char)*FCT_MAX_LOG_LINE);
+ FCT_ASSERT( str != NULL );
+ fct_snprintf(
+ str,
+ FCT_MAX_LOG_LINE,
+ "%s(%d):\n %s",
+ fctchk__file(chk),
+ fctchk__lineno(chk),
+ fctchk__msg(chk)
+ );
+ /* Append it to the listing ... */
+ fct_nlist__append(fail_list, (void*)str);
+}
+
+
+/* Another common routine, to print the failures at the end of a run. */
+static void
+fct_logger_print_failures(fct_nlist_t const *fail_list)
+{
+ puts(
+ "\n----------------------------------------------------------------------------\n"
+ );
+ puts("FAILED TESTS\n\n");
+ FCT_NLIST_FOREACH_BGN(char *, cndtn_str, fail_list)
+ {
+ printf("%s\n", cndtn_str);
+ }
+ FCT_NLIST_FOREACH_END();
+
+ puts("\n");
+}
+
+
+
+
+/*
+-----------------------------------------------------------
+MINIMAL LOGGER
+-----------------------------------------------------------
+
+At the moment the MINIMAL LOGGER is currently disabled. Hope
+to bring it back online soon. The only reason it is
+disabled is that we don't currently have the ability to specify
+loggers.
+*/
+
+
+/* Minimal logger, reports the minimum amount of information needed
+to determine "something is happening". */
+struct _fct_minimal_logger_t
+{
+ _fct_logger_head;
+ /* A list of char*'s that needs to be cleaned up. */
+ fct_nlist_t failed_cndtns_list;
+};
+
+
+static void
+fct_minimal_logger__on_chk(
+ fct_logger_i *self_,
+ fct_logger_evt_t const *e
+)
+{
+ fct_minimal_logger_t *self = (fct_minimal_logger_t*)self_;
+ if ( fctchk__is_pass(e->chk) )
+ {
+ fputs(".", stdout);
+ }
+ else
+ {
+ fputs("x", stdout);
+ fct_logger_record_failure(e->chk, &(self->failed_cndtns_list));
+
+ }
+}
+
+static void
+fct_minimal_logger__on_fctx_end(
+ fct_logger_i *self_,
+ fct_logger_evt_t const *e
+)
+{
+ fct_minimal_logger_t *self = (fct_minimal_logger_t*)self_;
+ fct_unused(e);
+ if ( fct_nlist__size(&(self->failed_cndtns_list)) >0 )
+ {
+ fct_logger_print_failures(&(self->failed_cndtns_list));
+ }
+}
+
+
+static void
+fct_minimal_logger__on_delete(
+ fct_logger_i *self_,
+ fct_logger_evt_t const *e
+)
+{
+ fct_minimal_logger_t *self = (fct_minimal_logger_t*)self_;
+ fct_unused(e);
+ fct_nlist__final(&(self->failed_cndtns_list), free);
+ free(self);
+
+}
+
+
+fct_logger_i*
+fct_minimal_logger_new(void)
+{
+ fct_minimal_logger_t *self = (fct_minimal_logger_t*)\
+ calloc(1,sizeof(fct_minimal_logger_t));
+ if ( self == NULL )
+ {
+ return NULL;
+ }
+ fct_logger__init((fct_logger_i*)self);
+ self->vtable.on_chk = fct_minimal_logger__on_chk;
+ self->vtable.on_fctx_end = fct_minimal_logger__on_fctx_end;
+ self->vtable.on_delete = fct_minimal_logger__on_delete;
+ fct_nlist__init2(&(self->failed_cndtns_list), 0);
+ return (fct_logger_i*)self;
+}
+
+
+/*
+-----------------------------------------------------------
+STANDARD LOGGER
+-----------------------------------------------------------
+*/
+
+struct _fct_standard_logger_t
+{
+ _fct_logger_head;
+
+ /* Start time. For now we use the low-accuracy time_t version. */
+ fct_timer_t timer;
+
+ /* A list of char*'s that needs to be cleaned up. */
+ fct_nlist_t failed_cndtns_list;
+};
+
+
+#define FCT_STANDARD_LOGGER_MAX_LINE 68
+
+
+/* When a failure occurrs, we will record the details so we can display
+them when the log "finishes" up. */
+static void
+fct_standard_logger__on_chk(
+ fct_logger_i *logger_,
+ fct_logger_evt_t const *e
+)
+{
+ fct_standard_logger_t *logger = (fct_standard_logger_t*)logger_;
+ /* Only record failures. */
+ if ( !fctchk__is_pass(e->chk) )
+ {
+ fct_logger_record_failure(e->chk, &(logger->failed_cndtns_list));
+ }
+}
+
+
+static void
+fct_standard_logger__on_test_skip(
+ fct_logger_i* logger_,
+ fct_logger_evt_t const *e
+)
+{
+ char const *condition = e->cndtn;
+ char const *name = e->name;
+ char msg[256] = {'\0'};
+ fct_unused(logger_);
+ fct_unused(condition);
+ fct_snprintf(msg, sizeof(msg), "%s (%s)", name, condition);
+ msg[sizeof(msg)-1] = '\0';
+ fct_dotted_line_start(FCT_STANDARD_LOGGER_MAX_LINE, msg);
+ fct_dotted_line_end("- SKIP -");
+}
+
+
+static void
+fct_standard_logger__on_test_start(
+ fct_logger_i *logger_,
+ fct_logger_evt_t const *e
+)
+{
+ fct_unused(logger_);
+ fct_dotted_line_start(
+ FCT_STANDARD_LOGGER_MAX_LINE,
+ fct_test__name(e->test)
+ );
+}
+
+
+static void
+fct_standard_logger__on_test_end(
+ fct_logger_i *logger_,
+ fct_logger_evt_t const *e
+)
+{
+ nbool_t is_pass;
+ fct_unused(logger_);
+ is_pass = fct_test__is_pass(e->test);
+ fct_dotted_line_end((is_pass) ? "PASS" : "FAIL ***" );
+}
+
+
+static void
+fct_standard_logger__on_fctx_start(
+ fct_logger_i *logger_,
+ fct_logger_evt_t const *e
+)
+{
+ fct_standard_logger_t *logger = (fct_standard_logger_t*)logger_;
+ fct_unused(e);
+ fct_timer__start(&(logger->timer));
+}
+
+
+static void
+fct_standard_logger__on_fctx_end(
+ fct_logger_i *logger_,
+ fct_logger_evt_t const *e
+)
+{
+ fct_standard_logger_t *logger = (fct_standard_logger_t*)logger_;
+ nbool_t is_success =1;
+ double elasped_time =0;
+ size_t num_tests =0;
+ size_t num_passed =0;
+
+ fct_timer__stop(&(logger->timer));
+
+ is_success = fct_nlist__size(&(logger->failed_cndtns_list)) ==0;
+
+ if ( !is_success )
+ {
+ fct_logger_print_failures(&(logger->failed_cndtns_list));
+ }
+ puts(
+ "\n----------------------------------------------------------------------------\n"
+ );
+ num_tests = fctkern__tst_cnt(e->kern);
+ num_passed = fctkern__tst_cnt_passed(e->kern);
+ printf(
+ "%s (%lu/%lu tests",
+ (is_success) ? "PASSED" : "FAILED",
+ (unsigned long) num_passed,
+ (unsigned long) num_tests
+ );
+ elasped_time = fct_timer__duration(&(logger->timer));
+ if ( elasped_time > 0.0000001 )
+ {
+ printf(" in %.6fs)\n", elasped_time);
+ }
+ else
+ {
+ /* Don't bother displaying the time to execute. */
+ puts(")\n");
+ }
+}
+
+
+static void
+fct_standard_logger__on_delete(
+ fct_logger_i *logger_,
+ fct_logger_evt_t const *e
+)
+{
+ fct_standard_logger_t *logger = (fct_standard_logger_t*)logger_;
+ fct_unused(e);
+ fct_nlist__final(&(logger->failed_cndtns_list), free);
+ free(logger);
+ logger_ =NULL;
+}
+
+
+static void
+fct_standard_logger__on_warn(
+ fct_logger_i* logger_,
+ fct_logger_evt_t const *e
+)
+{
+ fct_unused(logger_);
+ (void)printf("WARNING: %s", e->msg);
+}
+
+
+fct_logger_i*
+fct_standard_logger_new(void)
+{
+ fct_standard_logger_t *logger = (fct_standard_logger_t *)calloc(
+ 1, sizeof(fct_standard_logger_t)
+ );
+ if ( logger == NULL )
+ {
+ return NULL;
+ }
+ fct_logger__init((fct_logger_i*)logger);
+ logger->vtable.on_chk = fct_standard_logger__on_chk;
+ logger->vtable.on_test_start = fct_standard_logger__on_test_start;
+ logger->vtable.on_test_end = fct_standard_logger__on_test_end;
+ logger->vtable.on_fctx_start = fct_standard_logger__on_fctx_start;
+ logger->vtable.on_fctx_end = fct_standard_logger__on_fctx_end;
+ logger->vtable.on_delete = fct_standard_logger__on_delete;
+ logger->vtable.on_warn = fct_standard_logger__on_warn;
+ logger->vtable.on_test_skip = fct_standard_logger__on_test_skip;
+ fct_nlist__init2(&(logger->failed_cndtns_list), 0);
+ fct_timer__init(&(logger->timer));
+ return (fct_logger_i*)logger;
+}
+
+
+/*
+-----------------------------------------------------------
+JUNIT LOGGER
+-----------------------------------------------------------
+*/
+
+
+/* JUnit logger */
+struct _fct_junit_logger_t
+{
+ _fct_logger_head;
+};
+
+
+static void
+fct_junit_logger__on_test_suite_start(
+ fct_logger_i *l,
+ fct_logger_evt_t const *e
+)
+{
+ fct_unused(l);
+ fct_unused(e);
+ FCT_SWITCH_STDOUT_TO_BUFFER();
+ FCT_SWITCH_STDERR_TO_BUFFER();
+}
+
+
+static void
+fct_junit_logger__on_test_suite_end(
+ fct_logger_i *logger_,
+ fct_logger_evt_t const *e
+)
+{
+ fct_ts_t const *ts = e->ts; /* Test Suite */
+ nbool_t is_pass;
+ double elasped_time = 0;
+ char std_buffer[1024];
+ int read_length;
+ int first_out_line;
+
+ fct_unused(logger_);
+
+ elasped_time = fct_ts__duration(ts);
+
+ FCT_SWITCH_STDOUT_TO_STDOUT();
+ FCT_SWITCH_STDERR_TO_STDERR();
+
+ /* opening testsuite tag */
+ printf("\t\n",
+ (unsigned long) fct_ts__tst_cnt(ts)
+ - fct_ts__tst_cnt_passed(ts),
+ (unsigned long) fct_ts__tst_cnt(ts),
+ fct_ts__name(ts),
+ elasped_time);
+
+ FCT_NLIST_FOREACH_BGN(fct_test_t*, test, &(ts->test_list))
+ {
+ is_pass = fct_test__is_pass(test);
+
+ /* opening testcase tag */
+ if (is_pass)
+ {
+ printf("\t\t\n",
+ fct_test__name(test),
+ fct_test__duration(test)
+ );
+ }
+
+ FCT_NLIST_FOREACH_BGN(fctchk_t*, chk, &(test->failed_chks))
+ {
+ /* error tag */
+ printf("\t\t\t", chk->msg);
+ printf("file:%s, line:%d", chk->file, chk->lineno);
+ printf("\n");
+ }
+ FCT_NLIST_FOREACH_END();
+
+ /* closing testcase tag */
+ if (is_pass)
+ {
+ printf(" />\n");
+ }
+ else
+ {
+ printf("\t\t\n");
+ }
+ }
+ FCT_NLIST_FOREACH_END();
+
+ /* print the std streams */
+ first_out_line = 1;
+ printf("\t\t\n\t\t\t 0)
+ {
+ if (first_out_line)
+ {
+ printf("\n");
+ first_out_line = 0;
+ }
+ printf("%.*s", read_length, std_buffer);
+ }
+ printf("]]>\n\t\t\n");
+
+ first_out_line = 1;
+ printf("\t\t\n\t\t\t 0)
+ {
+ if (first_out_line)
+ {
+ printf("\n");
+ first_out_line = 0;
+ }
+ printf("%.*s", read_length, std_buffer);
+ }
+ printf("]]>\n\t\t\n");
+
+ /* closing testsuite tag */
+ printf("\t\n");
+}
+
+static void
+fct_junit_logger__on_fct_start(
+ fct_logger_i *logger_,
+ fct_logger_evt_t const *e
+)
+{
+ fct_unused(logger_);
+ fct_unused(e);
+ printf("\n");
+ printf("\n");
+}
+
+static void
+fct_junit_logger__on_fctx_end(
+ fct_logger_i *logger_,
+ fct_logger_evt_t const *e
+)
+{
+ fct_unused(logger_);
+ fct_unused(e);
+ printf("\n");
+}
+
+static void
+fct_junit_logger__on_delete(
+ fct_logger_i *logger_,
+ fct_logger_evt_t const *e
+)
+{
+ fct_junit_logger_t *logger = (fct_junit_logger_t*)logger_;
+ fct_unused(e);
+ free(logger);
+ logger_ =NULL;
+}
+
+
+fct_junit_logger_t *
+fct_junit_logger_new(void)
+{
+ fct_junit_logger_t *logger =
+ (fct_junit_logger_t *)calloc(1, sizeof(fct_junit_logger_t));
+ if ( logger == NULL )
+ {
+ return NULL;
+ }
+ fct_logger__init((fct_logger_i*)logger);
+ logger->vtable.on_test_suite_start = fct_junit_logger__on_test_suite_start;
+ logger->vtable.on_test_suite_end = fct_junit_logger__on_test_suite_end;
+ logger->vtable.on_fctx_start = fct_junit_logger__on_fct_start;
+ logger->vtable.on_fctx_end = fct_junit_logger__on_fctx_end;
+ logger->vtable.on_delete = fct_junit_logger__on_delete;
+ return logger;
+}
+
+
+/*
+------------------------------------------------------------
+MACRO MAGIC
+------------------------------------------------------------
+This is where the show begins!
+*/
+
+/* This macro invokes a bunch of functions that need to be referenced in
+order to avoid a "unreferenced local function has been removed" warning.
+The logical acrobatics below try and make it appear to the compiler that
+they are needed, but at runtime, only the cheap, first call is made. */
+#define FCT_REFERENCE_FUNCS() \
+ {\
+ int check = 0 && fctstr_ieq(NULL, NULL);\
+ if ( check ) {\
+ _fct_cmt("not to be executed");\
+ (void)_fct_chk_empty_str(NULL);\
+ (void)_fct_chk_full_str(NULL);\
+ (void)fct_test__start_timer(NULL);\
+ (void)fct_test__stop_timer(NULL);\
+ (void)fct_ts_new(NULL);\
+ (void)fct_ts__test_begin(NULL);\
+ (void)fct_ts__add_test(NULL, NULL);\
+ (void)fct_ts__test_end(NULL);\
+ (void)fct_ts__inc_total_test_num(NULL);\
+ (void)fct_ts__make_abort_test(NULL);\
+ (void)fct_ts__setup_abort(NULL);\
+ (void)fct_ts__setup_end(NULL);\
+ (void)fct_ts__teardown_end(NULL);\
+ (void)fct_ts__cnt_end(NULL);\
+ (void)fct_ts__is_test_cnt(NULL, 0);\
+ (void)fct_xchk_fn(0, "");\
+ (void)fct_xchk2_fn(NULL, 0, "");\
+ (void)fctkern__cl_parse(NULL);\
+ (void)fctkern__add_ts(NULL, NULL);\
+ (void)fctkern__pass_filter(NULL, NULL);\
+ (void)fctkern__log_suite_start(NULL, NULL);\
+ (void)fctkern__log_suite_end(NULL, NULL);\
+ (void)fctkern__log_test_skip(NULL, NULL, NULL);\
+ (void)fctkern__log_test_start(NULL, NULL);\
+ (void)fctkern__log_test_end(NULL, NULL);\
+ (void)fctstr_endswith(NULL,NULL);\
+ (void)fctstr_iendswith(NULL,NULL);\
+ (void)fctstr_ieq(NULL,NULL);\
+ (void)fctstr_incl(NULL, NULL);\
+ (void)fctstr_iincl(NULL, NULL);\
+ (void)fctstr_iendswith(NULL,NULL);\
+ (void)fctstr_istartswith(NULL,NULL);\
+ (void)fctstr_clone_lower(NULL);\
+ (void)fctstr_startswith(NULL,NULL);\
+ (void)fctkern__init(NULL, 0, NULL);\
+ (void)fctkern__cl_is(NULL, "");\
+ (void)fctkern__cl_val2(NULL, NULL, NULL);\
+ fctkern__log_suite_skip(NULL, NULL, NULL);\
+ (void)fct_clp__is_param(NULL,NULL);\
+ _fct_cmt("should never construct an object");\
+ (void)fct_test_new(NULL);\
+ (void)fct_ts__chk_cnt(NULL);\
+ }\
+ }
+
+
+#define FCT_INIT(_ARGC_, _ARGV_) \
+ fctkern_t fctkern__; \
+ fctkern_t* fctkern_ptr__ = &fctkern__; \
+ FCT_REFERENCE_FUNCS(); \
+ if ( !fctkern__init(fctkern_ptr__, argc, (const char **)argv) ) {\
+ (void)fprintf( \
+ stderr, "FATAL ERROR: Unable to initialize FCTX Kernel."\
+ ); \
+ exit(EXIT_FAILURE); \
+ } \
+
+
+#define FCT_FINAL() \
+ fctkern_ptr__->ns.num_total_failed = fctkern__tst_cnt_failed( \
+ (fctkern_ptr__) \
+ ); \
+ fctkern__log_end(fctkern_ptr__); \
+ fctkern__end(fctkern_ptr__); \
+ fctkern__final(fctkern_ptr__); \
+ FCT_ASSERT( !((int)fctkern_ptr__->ns.num_total_failed < 0) \
+ && "or we got truncated!"); \
+ if ( fctkern_ptr__->ns.num_total_failed == \
+ fctkern_ptr__->num_expected_failures) { \
+ fctkern_ptr__->ns.num_total_failed = 0; \
+ } \
+
+
+
+#define FCT_NUM_FAILED() \
+ fctkern_ptr__->ns.num_total_failed \
+
+
+
+/* Typically used internally only, this mentions to FCTX that you EXPECT
+to _NUM_FAILS_. If you the expected matches the actual, a 0 value is returned
+from the program. */
+#define FCT_EXPECTED_FAILURES(_NUM_FAILS_) \
+ ((fctkern_ptr__->num_expected_failures = (_NUM_FAILS_)))
+
+
+#define FCT_BGN_FN(_FNNAME_) \
+ int _FNNAME_(int argc, char* argv[])\
+ { \
+ FCT_INIT(argc, argv)
+
+#define FCT_END_FN() FCT_END()
+
+/* This defines our start. The fctkern__ is a kernal object
+that lives throughout the lifetime of our program. The
+fctkern_ptr__ makes it easier to abstract out macros. */
+#define FCT_BGN() FCT_BGN_FN(main)
+
+
+/* Silence Intel complaints about unspecified operand order in user's code */
+#ifndef __INTEL_COMPILER
+# define FCT_END_WARNINGFIX_BGN
+# define FCT_END_WARNINGFIX_END
+#else
+# define FCT_END_WARNINGFIX_BGN _Pragma("warning(push,disable:981)");
+# define FCT_END_WARNINGFIX_END _Pragma("warning(pop)");
+#endif
+
+/* Ends the test suite by returning the number failed. The "chk_cnt" call is
+made in order allow strict compilers to pass when it encounters unreferenced
+functions. */
+#define FCT_END() \
+ { \
+ FCT_END_WARNINGFIX_BGN \
+ FCT_FINAL(); \
+ return FCT_NUM_FAILED();\
+ FCT_END_WARNINGFIX_END \
+ }\
+}
+
+#define fctlog_install(_CUST_LOGGER_LIST_) \
+ fctkern_ptr__->lt_usr = (_CUST_LOGGER_LIST_)
+
+/* Re-parses the command line options with the addition of user defined
+options. */
+#define fctcl_install(_CLO_INIT_) \
+ {\
+ fctkern_ptr__->cl_user_opts = (_CLO_INIT_);\
+ _fct_cmt("Delay parse in order to allow for user customization.");\
+ if ( !fctkern__cl_is_parsed((fctkern_ptr__)) ) {\
+ int status = fctkern__cl_parse((fctkern_ptr__));\
+ _fct_cmt("Need to parse command line before we start logger.");\
+ fctkern__log_start((fctkern_ptr__));\
+ switch( status ) {\
+ case -1:\
+ case 0:\
+ fctkern__final(fctkern_ptr__);\
+ exit( (status == 0) ? (EXIT_FAILURE) : (EXIT_SUCCESS) );\
+ break;\
+ default:\
+ fct_pass();\
+ }\
+ }\
+ }
+
+
+#define fctcl_is(_OPT_STR_) (fctkern__cl_is(fctkern_ptr__, (_OPT_STR_)))
+
+#define fctcl_val(_OPT_STR_) (fctcl_val2((_OPT_STR_), NULL))
+
+#define fctcl_val2(_OPT_STR_, _DEF_STR_) \
+ (fctkern__cl_val2(fctkern_ptr__, (_OPT_STR_), (_DEF_STR_)))
+
+
+/* We delay the first parse of the command line until we get the first
+test fixture. This allows the user to possibly add their own parse
+specification. */
+#define FCT_FIXTURE_SUITE_BGN(_NAME_) \
+ {\
+ fctkern_ptr__->ns.ts_curr = fct_ts_new( #_NAME_ );\
+ _fct_cmt("Delay parse in order to allow for user customization.");\
+ if ( !fctkern__cl_is_parsed((fctkern_ptr__)) ) {\
+ int status = fctkern__cl_parse((fctkern_ptr__));\
+ _fct_cmt("Need to parse command line before we start logger.");\
+ fctkern__log_start((fctkern_ptr__));\
+ switch( status ) {\
+ case -1:\
+ case 0:\
+ fct_ts__del((fctkern_ptr__->ns.ts_curr));\
+ fctkern__final(fctkern_ptr__);\
+ exit( (status == 0) ? (EXIT_FAILURE) : (EXIT_SUCCESS) );\
+ break;\
+ default:\
+ fct_pass();\
+ }\
+ }\
+ if ( fctkern_ptr__->ns.ts_curr == NULL ) {\
+ fctkern__log_warn((fctkern_ptr__), "out of memory");\
+ }\
+ else\
+ {\
+ fctkern__log_suite_start((fctkern_ptr__), fctkern_ptr__->ns.ts_curr);\
+ for (;;)\
+ {\
+ fctkern_ptr__->ns.test_num = -1;\
+ if ( fct_ts__is_ending_mode(fctkern_ptr__->ns.ts_curr) \
+ || fct_ts__is_abort_mode(fctkern_ptr__->ns.ts_curr) )\
+ {\
+ _fct_cmt("flag the test suite as complete.");\
+ fct_ts__end(fctkern_ptr__->ns.ts_curr);\
+ break;\
+ }
+
+
+
+/* Closes off a "Fixture" test suite. */
+#define FCT_FIXTURE_SUITE_END() \
+ if ( fct_ts__is_cnt_mode(fctkern_ptr__->ns.ts_curr) )\
+ {\
+ fct_ts__cnt_end(fctkern_ptr__->ns.ts_curr);\
+ }\
+ }\
+ fctkern__add_ts((fctkern_ptr__), fctkern_ptr__->ns.ts_curr);\
+ fctkern__log_suite_end((fctkern_ptr__), fctkern_ptr__->ns.ts_curr);\
+ fct_ts__end(fctkern_ptr__->ns.ts_curr);\
+ fctkern_ptr__->ns.ts_curr = NULL;\
+ }\
+ }
+
+#define FCT_FIXTURE_SUITE_BGN_IF(_CONDITION_, _NAME_) \
+ fctkern_ptr__->ns.ts_is_skip_suite = !(_CONDITION_);\
+ fctkern_ptr__->ns.ts_skip_cndtn = #_CONDITION_;\
+ if ( fctkern_ptr__->ns.ts_is_skip_suite ) {\
+ fctkern__log_suite_skip((fctkern_ptr__), #_CONDITION_, #_NAME_);\
+ }\
+ FCT_FIXTURE_SUITE_BGN(_NAME_);
+
+#define FCT_FIXTURE_SUITE_END_IF() \
+ FCT_FIXTURE_SUITE_END();\
+ fctkern_ptr__->ns.ts_is_skip_suite =0;\
+ fctkern_ptr__->ns.ts_skip_cndtn =NULL;\
+
+#define FCT_SETUP_BGN()\
+ if ( fct_ts__is_setup_mode(fctkern_ptr__->ns.ts_curr) ) {
+
+#define FCT_SETUP_END() \
+ fct_ts__setup_end(fctkern_ptr__->ns.ts_curr); }
+
+#define FCT_TEARDOWN_BGN() \
+ if ( fct_ts__is_teardown_mode(fctkern_ptr__->ns.ts_curr) ) {\
+
+#define FCT_TEARDOWN_END() \
+ fct_ts__teardown_end(fctkern_ptr__->ns.ts_curr); \
+ continue; \
+ }
+
+/* Lets you create a test suite, where maybe you don't want a fixture. We
+do it by 'stubbing' out the setup/teardown logic. */
+#define FCT_SUITE_BGN(Name) \
+ FCT_FIXTURE_SUITE_BGN(Name) {\
+ FCT_SETUP_BGN() {_fct_cmt("stubbed"); } FCT_SETUP_END()\
+ FCT_TEARDOWN_BGN() {_fct_cmt("stubbed");} FCT_TEARDOWN_END()\
+
+#define FCT_SUITE_END() } FCT_FIXTURE_SUITE_END()
+
+#define FCT_SUITE_BGN_IF(_CONDITION_, _NAME_) \
+ FCT_FIXTURE_SUITE_BGN_IF(_CONDITION_, (_NAME_)) {\
+ FCT_SETUP_BGN() {_fct_cmt("stubbed"); } FCT_SETUP_END()\
+ FCT_TEARDOWN_BGN() {_fct_cmt("stubbed");} FCT_TEARDOWN_END()\
+
+#define FCT_SUITE_END_IF() } FCT_FIXTURE_SUITE_END_IF()
+
+typedef enum
+{
+ FCT_TEST_END_FLAG_Default = 0x0000,
+ FCT_TEST_END_FLAG_ClearFail = 0x0001
+} FCT_TEST_END_FLAG;
+
+
+#define FCT_TEST_BGN_IF(_CONDITION_, _NAME_) { \
+ fctkern_ptr__->ns.test_is_skip = !(_CONDITION_);\
+ fctkern_ptr__->ns.test_skip_cndtn = #_CONDITION_;\
+ FCT_TEST_BGN(_NAME_) {\
+
+#define FCT_TEST_END_IF() \
+ } FCT_TEST_END();\
+ fctkern_ptr__->ns.test_is_skip = 0;\
+ fctkern_ptr__->ns.test_skip_cndtn = NULL;\
+ }
+
+
+/* Depending on whether or not we are counting the tests, we will have to
+first determine if the test is the "current" count. Then we have to determine
+if we can pass the filter. Finally we will execute everything so that when a
+check fails, we can "break" out to the end of the test. And in between all
+that we do a memory check and fail a test if we can't build a fct_test
+object (should be rare). */
+#define FCT_TEST_BGN(_NAME_) \
+ {\
+ fctkern_ptr__->ns.curr_test_name = #_NAME_;\
+ ++(fctkern_ptr__->ns.test_num);\
+ if ( fct_ts__is_cnt_mode(fctkern_ptr__->ns.ts_curr) )\
+ {\
+ fct_ts__inc_total_test_num(fctkern_ptr__->ns.ts_curr);\
+ }\
+ else if ( fct_ts__is_test_mode(fctkern_ptr__->ns.ts_curr) \
+ && fct_ts__is_test_cnt(fctkern_ptr__->ns.ts_curr, fctkern_ptr__->ns.test_num) )\
+ {\
+ fct_ts__test_begin(fctkern_ptr__->ns.ts_curr);\
+ if ( fctkern__pass_filter(fctkern_ptr__, fctkern_ptr__->ns.curr_test_name ) )\
+ {\
+ fctkern_ptr__->ns.curr_test = fct_test_new( fctkern_ptr__->ns.curr_test_name );\
+ if ( fctkern_ptr__->ns.curr_test == NULL ) {\
+ fctkern__log_warn(fctkern_ptr__, "out of memory");\
+ } else if ( fctkern_ptr__->ns.ts_is_skip_suite \
+ || fctkern_ptr__->ns.test_is_skip ) {\
+ fct_ts__test_begin(fctkern_ptr__->ns.ts_curr);\
+ fctkern__log_test_skip(\
+ fctkern_ptr__,\
+ fctkern_ptr__->ns.curr_test_name,\
+ (fctkern_ptr__->ns.test_is_skip) ?\
+ (fctkern_ptr__->ns.test_skip_cndtn) :\
+ (fctkern_ptr__->ns.ts_skip_cndtn)\
+ );\
+ fct_ts__test_end(fctkern_ptr__->ns.ts_curr);\
+ continue;\
+ } else {\
+ fctkern__log_test_start(fctkern_ptr__, fctkern_ptr__->ns.curr_test);\
+ fct_test__start_timer(fctkern_ptr__->ns.curr_test);\
+ for (;;) \
+ {
+
+
+
+
+#define FCT_TEST_END() \
+ break;\
+ }\
+ fct_test__stop_timer(fctkern_ptr__->ns.curr_test);\
+ }\
+ fct_ts__add_test(fctkern_ptr__->ns.ts_curr, fctkern_ptr__->ns.curr_test);\
+ fctkern__log_test_end(fctkern_ptr__, fctkern_ptr__->ns.curr_test);\
+ }\
+ fct_ts__test_end(fctkern_ptr__->ns.ts_curr);\
+ continue;\
+ }\
+ }\
+
+
+
+/*
+---------------------------------------------------------
+CHECKING MACROS
+----------------------------------------------------------
+
+The chk variants will continue on while the req variants will abort
+a test if a chk condition fails. The req variants are useful when you
+no longer want to keep checking conditions because a critical condition
+is not being met. */
+
+
+/* To support older compilers that do not have macro variable argument lists
+we have to use a function. The macro manages to store away the line/file
+location into a global before it runs this function, a trick I picked up from
+the error handling in the APR library. The unfortunate thing is that we can
+not carry forth the actual test through a "stringize" operation, but if you
+wanted to do that you should use fct_chk. */
+
+static int fct_xchk_lineno =0;
+static char const *fct_xchk_file = NULL;
+static fct_test_t *fct_xchk_test = NULL;
+static fctkern_t *fct_xchk_kern =NULL;
+
+
+static int
+_fct_xchk_fn_varg(
+ char const *condition,
+ int is_pass,
+ char const *format,
+ va_list args
+)
+{
+ fctchk_t *chk =NULL;
+ chk = fctchk_new(
+ is_pass,
+ condition,
+ fct_xchk_file,
+ fct_xchk_lineno,
+ format,
+ args
+ );
+ if ( chk == NULL )
+ {
+ fctkern__log_warn(fct_xchk_kern, "out of memory (aborting test)");
+ goto finally;
+ }
+
+ fct_test__add(fct_xchk_test, chk);
+ fctkern__log_chk(fct_xchk_kern, chk);
+finally:
+ fct_xchk_lineno =0;
+ fct_xchk_file =NULL;
+ fct_xchk_test =NULL;
+ fct_xchk_kern =NULL;
+ return is_pass;
+}
+
+
+static int
+fct_xchk2_fn(const char *condition, int is_pass, char const *format, ...)
+{
+ int r =0;
+ va_list args;
+ va_start(args, format);
+ r = _fct_xchk_fn_varg(condition, is_pass, format, args);
+ va_end(args);
+ return r;
+}
+
+
+static int
+fct_xchk_fn(int is_pass, char const *format, ...)
+{
+ int r=0;
+ va_list args;
+ va_start(args, format);
+ r = _fct_xchk_fn_varg("", is_pass, format, args);
+ va_end(args);
+ return r;
+}
+
+
+/* Call this with the following argument list:
+
+ fct_xchk(test_condition, format_str, ...)
+
+the bulk of this macro presets some globals to allow us to support
+variable argument lists on older compilers. The idea came from the APR
+libraries error checking routines. */
+#define fct_xchk fct_xchk_kern = fctkern_ptr__,\
+ fct_xchk_test = fctkern_ptr__->ns.curr_test,\
+ fct_xchk_lineno =__LINE__,\
+ fct_xchk_file=__FILE__,\
+ fct_xchk_fn
+
+#define fct_xchk2 fct_xchk_kern = fctkern_ptr__,\
+ fct_xchk_test = fctkern_ptr__->ns.curr_test,\
+ fct_xchk_lineno =__LINE__,\
+ fct_xchk_file=__FILE__,\
+ fct_xchk2_fn
+
+
+/* This checks the condition and reports the condition as a string
+if it fails. */
+#define fct_chk(_CNDTN_) (fct_xchk((_CNDTN_) ? 1 : 0, #_CNDTN_))
+
+#define _fct_req(_CNDTN_) \
+ if ( !(fct_xchk((_CNDTN_) ? 1 : 0, #_CNDTN_)) ) { break; }
+
+
+/* When in test mode, construct a mock test object for fct_xchk to operate
+with. If we fail a setup up, then we go directly to a teardown mode. */
+#define fct_req(_CNDTN_) \
+ if ( fct_ts__is_test_mode(fctkern_ptr__->ns.ts_curr) ) { \
+ _fct_req((_CNDTN_)); \
+ } \
+ else if ( fct_ts__is_setup_mode(fctkern_ptr__->ns.ts_curr) \
+ || fct_ts__is_teardown_mode(fctkern_ptr__->ns.ts_curr) ) { \
+ fctkern_ptr__->ns.curr_test = fct_ts__make_abort_test( \
+ fctkern_ptr__->ns.ts_curr \
+ ); \
+ if ( !(fct_xchk((_CNDTN_) ? 1 : 0, #_CNDTN_)) ) { \
+ fct_ts__setup_abort(fctkern_ptr__->ns.ts_curr); \
+ fct_ts__add_test( \
+ fctkern_ptr__->ns.ts_curr, fctkern_ptr__->ns.curr_test \
+ ); \
+ } \
+ } else { \
+ assert("invalid condition for fct_req!"); \
+ _fct_req((_CNDTN_)); \
+ }
+
+
+#define fct_chk_eq_dbl(V1, V2) \
+ fct_xchk(\
+ ((int)(fabs((V1)-(V2)) < DBL_EPSILON)),\
+ "chk_eq_dbl: %f != %f",\
+ (V1),\
+ (V2)\
+ )
+
+
+#define fct_chk_neq_dbl(V1, V2) \
+ fct_xchk(\
+ ((int)(fabs((V1)-(V2)) >= DBL_EPSILON)),\
+ "chk_neq_dbl: %f == %f",\
+ (V1),\
+ (V2)\
+ )
+
+
+#define fct_chk_eq_str(V1, V2) \
+ fct_xchk(fctstr_eq((V1), (V2)),\
+ "chk_eq_str: '%s' != '%s'",\
+ (V1),\
+ (V2)\
+ )
+
+
+#define fct_chk_neq_str(V1, V2) \
+ fct_xchk(!fctstr_eq((V1), (V2)),\
+ "chk_neq_str: '%s' == '%s'",\
+ (V1),\
+ (V2)\
+ )
+
+/* To quiet warnings with GCC, who think we are being silly and passing
+in NULL to strlen, we will filter the predicate through these little
+functions */
+static int
+_fct_chk_empty_str(char const *s)
+{
+ if ( s == NULL )
+ {
+ return 1;
+ }
+ return strlen(s) ==0;
+}
+static int
+_fct_chk_full_str(char const *s)
+{
+ if ( s == NULL )
+ {
+ return 0;
+ }
+ return strlen(s) >0;
+}
+
+
+#define fct_chk_empty_str(V) \
+ fct_xchk(_fct_chk_empty_str((V)),\
+ "string not empty: '%s'",\
+ (V)\
+ )
+
+#define fct_chk_full_str(V) \
+ fct_xchk(_fct_chk_full_str((V)),\
+ "string is full: '%s'",\
+ (V)\
+ )
+
+
+#define fct_chk_eq_istr(V1, V2) \
+ fct_xchk(fctstr_ieq((V1), (V2)),\
+ "chk_eq_str: '%s' != '%s'",\
+ (V1),\
+ (V2)\
+ )
+
+
+#define fct_chk_neq_istr(V1, V2) \
+ fct_xchk(!fctstr_ieq((V1), (V2)),\
+ "chk_neq_str: '%s' == '%s'",\
+ (V1),\
+ (V2)\
+ )
+
+
+#define fct_chk_endswith_str(STR, CHECK)\
+ fct_xchk(fctstr_endswith((STR),(CHECK)),\
+ "fct_chk_endswith_str: '%s' doesn't end with '%s'",\
+ (STR),\
+ (CHECK)\
+ )
+
+
+#define fct_chk_iendswith_str(STR, CHECK)\
+ fct_xchk(fctstr_iendswith((STR), (CHECK)),\
+ "fch_chk_iendswith_str: '%s' doesn't end with '%s'.",\
+ (STR),\
+ (CHECK)\
+ )
+
+#define fct_chk_excl_str(STR, CHECK_EXCLUDE) \
+ fct_xchk(!fctstr_incl((STR), (CHECK_EXCLUDE)),\
+ "fct_chk_excl_str: '%s' is included in '%s'",\
+ (STR),\
+ (CHECK_EXCLUDE)\
+ )
+
+#define fct_chk_excl_istr(ISTR, ICHECK_EXCLUDE) \
+ fct_xchk(!fctstr_iincl((ISTR), (ICHECK_EXCLUDE)),\
+ "fct_chk_excl_istr (case insensitive): '%s' is "\
+ "included in'%s'",\
+ (ISTR),\
+ (ICHECK_EXCLUDE)\
+ )
+
+#define fct_chk_incl_str(STR, CHECK_INCLUDE) \
+ fct_xchk(fctstr_incl((STR), (CHECK_INCLUDE)),\
+ "fct_chk_incl_str: '%s' does not include '%s'",\
+ (STR),\
+ (CHECK_INCLUDE)\
+ )
+
+
+#define fct_chk_incl_istr(ISTR, ICHECK_INCLUDE) \
+ fct_xchk(fctstr_iincl((ISTR), (ICHECK_INCLUDE)),\
+ "fct_chk_incl_istr (case insensitive): '%s' does "\
+ "not include '%s'",\
+ (ISTR),\
+ (ICHECK_INCLUDE)\
+ )
+
+
+#define fct_chk_startswith_str(STR, CHECK)\
+ fct_xchk(fctstr_startswith((STR), (CHECK)),\
+ "'%s' does not start with '%s'",\
+ (STR),\
+ (CHECK)\
+ )
+
+
+#define fct_chk_startswith_istr(STR, CHECK)\
+ fct_xchk(fctstr_istartswith((STR), (CHECK)),\
+ "case insensitive check: '%s' does not start with '%s'",\
+ (STR),\
+ (CHECK)\
+ )
+
+#define fct_chk_eq_int(V1, V2) \
+ fct_xchk(\
+ ((V1) == (V2)),\
+ "chq_eq_int: %d != %d",\
+ (V1),\
+ (V2)\
+ )
+
+
+#define fct_chk_neq_int(V1, V2) \
+ fct_xchk(\
+ ((V1) != (V2)),\
+ "chq_neq_int: %d == %d",\
+ (V1),\
+ (V2)\
+ )
+
+#define fct_chk_ex(EXCEPTION, CODE) \
+ { \
+ bool pass_chk_ex = false; \
+ try { \
+ CODE; \
+ pass_chk_ex = false; \
+ } catch ( EXCEPTION ) { \
+ pass_chk_ex = true; \
+ } catch ( ... ) { \
+ pass_chk_ex = false; \
+ } \
+ fct_xchk( \
+ pass_chk_ex, \
+ "%s exception not generated", \
+ #EXCEPTION \
+ ); \
+ } \
+
+/*
+---------------------------------------------------------
+GUT CHECK MACROS
+----------------------------------------------------------
+
+The following macros are used to help check the "guts" of
+the FCT, and to confirm that it all works according to spec.
+*/
+
+/* Generates a message to STDERR and exits the application with a
+non-zero number. */
+#define _FCT_GUTCHK(_CNDTN_) \
+ if ( !(_CNDTN_) ) {\
+ fprintf(stderr, "gutchk fail: '" #_CNDTN_ "' was not true.\n");\
+ exit(1);\
+ }\
+ else {\
+ fprintf(stdout, "gutchk pass: '" #_CNDTN_ "'\n");\
+ }
+
+/*
+---------------------------------------------------------
+MULTI-FILE TEST SUITE MACROS
+----------------------------------------------------------
+
+I struggled trying to figure this out in a way that was
+as simple as possible. I wanted to be able to define
+the test suite in one object file, then refer it within
+the other one within the minimum amount of typing.
+
+Unfortunately without resorting to some supermacro
+work, I could only find a happy comprimise.
+
+See test_multi.c for an example.
+*/
+
+/* The following macros are used in your separate object
+file to define your test suite. */
+
+
+#define FCTMF_FIXTURE_SUITE_BGN(NAME) \
+ void NAME (fctkern_t *fctkern_ptr__) {\
+ FCT_REFERENCE_FUNCS();\
+ FCT_FIXTURE_SUITE_BGN( NAME ) {
+
+#define FCTMF_FIXTURE_SUITE_END() \
+ } FCT_FIXTURE_SUITE_END();\
+ }
+
+#define FCTMF_SUITE_BGN(NAME) \
+ void NAME (fctkern_t *fctkern_ptr__) {\
+ FCT_REFERENCE_FUNCS();\
+ FCT_SUITE_BGN( NAME ) {
+#define FCTMF_SUITE_END() \
+ } FCT_SUITE_END(); \
+ }
+
+
+/* Deprecated, no longer required. */
+#define FCTMF_SUITE_DEF(NAME)
+
+
+/* Executes a test suite defined by FCTMF_SUITE* */
+#define FCTMF_SUITE_CALL(NAME) {\
+ void NAME (fctkern_t *);\
+ NAME (fctkern_ptr__);\
+ }
+
+
+/*
+---------------------------------------------------------
+FCT QUICK TEST API
+----------------------------------------------------------
+The goal of these little macros is to try and get you
+up and running with a test as quick as possible.
+
+The basic idea is that there is one test per test suite.
+*/
+
+#define FCT_QTEST_BGN(NAME) \
+ FCT_SUITE_BGN(NAME) {\
+ FCT_TEST_BGN(NAME) {\
+
+#define FCT_QTEST_END() \
+ } FCT_TEST_END();\
+ } FCT_SUITE_END();
+
+
+#define FCT_QTEST_BGN_IF(_CONDITION_, _NAME_) \
+ FCT_SUITE_BGN(_NAME_) {\
+ FCT_TEST_BGN_IF(_CONDITION_, _NAME_) {\
+
+#define FCT_QTEST_END_IF() \
+ } FCT_TEST_END_IF();\
+ } FCT_SUITE_END();
+
+#endif /* !FCT_INCLUDED__IMB */