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hawk/t/tap.h

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/*
** tap4embedded : http://github.com/fperrad/tap4embedded
**
** Copyright (C) 2016-2017 Francois Perrad.
**
** tap4embedded is free software; you can redistribute it and/or modify it
** under the terms of the Artistic License 2.0
*/
#ifndef TAP_H
#define TAP_H
#ifndef TAP_PUTCHAR
#include <stdio.h>
#define TAP_PUTCHAR(c) fputc((c), stdout)
#define TAP_FLUSH() fflush(stdout)
#endif
#ifndef TAP_FLUSH
#define TAP_FLUSH()
#endif
#if defined(__unix__) || defined(_WIN32) || defined(_WIN64)
#include <stdlib.h>
#define TAP_EXIT(n) exit(n)
#else
#define TAP_EXIT(n)
#endif
#if defined(__bool_true_false_are_defined) || defined(__cplusplus)
#define TAP_BOOL bool
#define TAP_TRUE true
#define TAP_FALSE false
#else
#define TAP_BOOL char
#define TAP_TRUE 1
#define TAP_FALSE 0
#endif
#ifdef __cplusplus
extern "C" {
#endif
extern void plan(unsigned int nb);
extern void no_plan(void);
extern void skip_all(const char *reason);
extern void done_testing(unsigned int nb);
extern void bail_out(const char *reason);
extern void ok(const char *file, unsigned int line, TAP_BOOL test, const char *name);
extern void todo(const char *reason, unsigned int count);
extern void skip(const char *reason, unsigned int count);
extern void todo_skip(const char *reason);
extern void skip_rest(const char *reason);
extern void diag (const char *msg);
extern int exit_status (void);
#define OK(test, name) ok(__FILE__, __LINE__, (test), (name))
#define NOK(test, name) ok(__FILE__, __LINE__, !(test), (name))
#define PASS(name) ok(__FILE__, __LINE__, TAP_TRUE, (name))
#define FAIL(name) ok(__FILE__, __LINE__, TAP_FALSE, (name))
#ifndef TAP_NO_IMPL
typedef struct {
unsigned int curr_test;
unsigned int expected_tests;
unsigned int todo_upto;
const char *todo_reason;
TAP_BOOL have_plan;
TAP_BOOL no_plan;
TAP_BOOL have_output_plan;
TAP_BOOL done_testing;
TAP_BOOL is_passing;
} tap_t;
tap_t tap;
void putstr(const char *msg) {
TAP_BOOL need_begin = TAP_FALSE;
for (; *msg != '\0'; msg++) {
if (need_begin) {
TAP_PUTCHAR('#');
TAP_PUTCHAR(' ');
need_begin = TAP_FALSE;
}
TAP_PUTCHAR(*msg);
if (*msg == '\n') {
need_begin = TAP_TRUE;
}
}
}
void putuint (unsigned int n) {
char buf[8 * sizeof(unsigned int) + 1];
char *ptr = &buf[sizeof(buf) - 1];
*ptr = '\0';
do {
char c = '0' + (n % 10u);
--ptr;
*ptr = c;
n /= 10u;
} while (n != 0u);
putstr(ptr);
}
void not_yet_plan(void) {
if (tap.have_plan) {
putstr("You tried to plan twice\n");
TAP_FLUSH();
TAP_EXIT(-1);
}
}
void plan(unsigned int nb) {
not_yet_plan();
putstr("1..");
putuint(nb);
TAP_PUTCHAR('\n');
tap.expected_tests = nb;
tap.have_plan = TAP_TRUE;
tap.have_output_plan = TAP_TRUE;
tap.is_passing = TAP_TRUE;
}
void no_plan(void) {
not_yet_plan();
tap.have_plan = TAP_TRUE;
tap.no_plan = TAP_TRUE;
tap.is_passing = TAP_TRUE;
}
void skip_all(const char *reason) {
not_yet_plan();
putstr("1..0 # SKIP ");
putstr(reason);
TAP_PUTCHAR('\n');
tap.curr_test = 1u;
tap.expected_tests = 1u;
tap.have_plan = TAP_TRUE;
tap.have_output_plan = TAP_TRUE;
tap.is_passing = TAP_TRUE;
TAP_FLUSH();
}
void done_testing(unsigned int nb) {
if (tap.done_testing) {
putstr("done_testing() was already called\n");
}
else {
tap.done_testing = TAP_TRUE;
if ((tap.expected_tests != nb) && (tap.expected_tests != 0u)) {
putstr("# Looks like you planned ");
putuint(tap.expected_tests);
putstr(" tests but ran ");
putuint(nb);
TAP_PUTCHAR('.');
TAP_PUTCHAR('\n');
}
else {
tap.expected_tests = nb;
}
if (! tap.have_output_plan) {
putstr("1..");
putuint(nb);
TAP_PUTCHAR('\n');
tap.have_output_plan = TAP_TRUE;
}
if ((tap.expected_tests != tap.curr_test) || (tap.curr_test == 0u)) {
tap.is_passing = TAP_FALSE;
}
putstr("# Done with tap4embedded.\n");
}
TAP_FLUSH();
}
void bail_out(const char *reason) {
putstr("Bail out!");
if (reason != NULL) {
TAP_PUTCHAR(' ');
TAP_PUTCHAR(' ');
putstr(reason);
}
TAP_PUTCHAR('\n');
TAP_FLUSH();
TAP_EXIT(-1);
}
void need_plan(void) {
if (! tap.have_plan) {
putstr("You tried to run a test without a plan\n");
TAP_FLUSH();
TAP_EXIT(-1);
}
}
void ok(const char *file, unsigned int line, TAP_BOOL test, const char *name) {
need_plan();
++tap.curr_test;
if (! test) {
putstr("not ");
}
putstr("ok ");
putuint(tap.curr_test);
if (name != NULL) {
putstr(" - ");
putstr(name);
}
if ((tap.todo_reason != NULL) && (tap.todo_upto >= tap.curr_test)) {
putstr(" # TODO # ");
putstr(tap.todo_reason);
}
TAP_PUTCHAR('\n');
if (! test) {
putstr("# Failed");
if (tap.todo_upto >= tap.curr_test) {
putstr(" (TODO)");
}
else {
tap.is_passing = TAP_FALSE;
}
putstr(" test (");
putstr(file);
putstr(" at line ");
putuint(line);
putstr(")\n");
}
}
void todo(const char *reason, unsigned int count) {
tap.todo_upto = tap.curr_test + count;
tap.todo_reason = reason;
}
void skip(const char *reason, unsigned int count) {
unsigned int i;
need_plan();
for (i = 0u; i < count; i++) {
++tap.curr_test;
putstr("ok ");
putuint(tap.curr_test);
putstr(" - # skip");
if (reason != NULL) {
TAP_PUTCHAR(' ');
putstr(reason);
}
TAP_PUTCHAR('\n');
}
}
void todo_skip(const char *reason) {
need_plan();
++tap.curr_test;
putstr("not ok ");
putuint(tap.curr_test);
putstr(" - # TODO & SKIP");
if (reason != NULL) {
TAP_PUTCHAR(' ');
putstr(reason);
}
TAP_PUTCHAR('\n');
}
void skip_rest(const char *reason) {
skip(reason, tap.expected_tests - tap.curr_test);
}
void diag (const char *msg) {
TAP_PUTCHAR('#');
TAP_PUTCHAR(' ');
putstr(msg);
TAP_PUTCHAR('\n');
}
int exit_status (void) {
if (! tap.done_testing) {
done_testing(tap.curr_test);
}
#if defined(EXIT_SUCCESS) && defined(EXIT_FAILURE)
return tap.is_passing ? EXIT_SUCCESS : EXIT_FAILURE;
#else
return tap.is_passing ? 0 : -1;
#endif
}
#endif
#ifdef __cplusplus
}
#endif
#endif
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