scuffed-code/icu4c/source/tools/ctestfw/ctest.c

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/*
********************************************************************************
*
* Copyright (C) 1996-2011, International Business Machines
* Corporation and others. All Rights Reserved.
*
********************************************************************************
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*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include <stdarg.h>
#include <ctype.h>
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#include "unicode/utrace.h"
#include "unicode/uclean.h"
#include "umutex.h"
#include "putilimp.h"
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/* NOTES:
3/20/1999 srl - strncpy called w/o setting nulls at the end
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*/
#define MAXTESTNAME 128
#define MAXTESTS 512
#define MAX_TEST_LOG 4096
/**
* How may columns to indent the 'OK' markers.
*/
#define FLAG_INDENT 45
/**
* How many lines of scrollage can go by before we need to remind the user what the test is.
*/
#define PAGE_SIZE_LIMIT 25
#ifndef SHOW_TIMES
#define SHOW_TIMES 1
#endif
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struct TestNode
{
void (*test)(void);
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struct TestNode* sibling;
struct TestNode* child;
char name[1]; /* This is dynamically allocated off the end with malloc. */
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};
static const struct TestNode* currentTest;
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typedef enum { RUNTESTS, SHOWTESTS } TestMode;
#define TEST_SEPARATOR '/'
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#ifndef C_TEST_IMPL
#define C_TEST_IMPL
#endif
#include "unicode/ctest.h"
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static char ERROR_LOG[MAX_TEST_LOG][MAXTESTNAME];
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/* Local prototypes */
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static TestNode* addTestNode( TestNode *root, const char *name );
static TestNode *createTestNode(const char* name, int32_t nameLen);
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static int strncmp_nullcheck( const char* s1,
const char* s2,
int n );
static void getNextLevel( const char* name,
int* nameLen,
const char** nextName );
static void iterateTestsWithLevel( const TestNode *root, int depth,
const TestNode** nodeList,
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TestMode mode);
static void help ( const char *argv0 );
/**
* Do the work of logging an error. Doesn't increase the error count.
*
* @prefix optional prefix prepended to message, or NULL.
* @param pattern printf style pattern
* @param ap vprintf style arg list
*/
static void vlog_err(const char *prefix, const char *pattern, va_list ap);
static void vlog_verbose(const char *prefix, const char *pattern, va_list ap);
/**
* Log test structure, with indent
* @param pattern printf pattern
*/
static void log_testinfo_i(const char *pattern, ...);
/**
* Log test structure, NO indent
* @param pattern printf pattern
*/
static void log_testinfo(const char *pattern, ...);
/* If we need to make the framework multi-thread safe
we need to pass around the following vars
*/
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static int ERRONEOUS_FUNCTION_COUNT = 0;
static int ERROR_COUNT = 0; /* Count of errors from all tests. */
static int ONE_ERROR = 0; /* were there any other errors? */
static int DATA_ERROR_COUNT = 0; /* count of data related errors or warnings */
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static int INDENT_LEVEL = 0;
static UBool ON_LINE = FALSE; /* are we on the top line with our test name? */
static UBool HANGING_OUTPUT = FALSE; /* did the user leave us without a trailing \n ? */
static int GLOBAL_PRINT_COUNT = 0; /* global count of printouts */
int REPEAT_TESTS_INIT = 0; /* Was REPEAT_TESTS initialized? */
int REPEAT_TESTS = 1; /* Number of times to run the test */
int VERBOSITY = 0; /* be No-verbose by default */
int ERR_MSG =1; /* error messages will be displayed by default*/
int QUICK = 1; /* Skip some of the slower tests? */
int WARN_ON_MISSING_DATA = 0; /* Reduce data errs to warnings? */
UTraceLevel ICU_TRACE = UTRACE_OFF; /* ICU tracing level */
size_t MINIMUM_MEMORY_SIZE_FAILURE = (size_t)-1; /* Minimum library memory allocation window that will fail. */
size_t MAXIMUM_MEMORY_SIZE_FAILURE = (size_t)-1; /* Maximum library memory allocation window that will fail. */
int32_t ALLOCATION_COUNT = 0;
static const char *ARGV_0 = "[ALL]";
static const char *XML_FILE_NAME=NULL;
static char XML_PREFIX[256];
FILE *XML_FILE = NULL;
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/*-------------------------------------------*/
/* strncmp that also makes sure there's a \0 at s2[0] */
static int strncmp_nullcheck( const char* s1,
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const char* s2,
int n )
{
if (((int)strlen(s2) >= n) && s2[n] != 0) {
return 3; /* null check fails */
}
else {
return strncmp ( s1, s2, n );
}
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}
static void getNextLevel( const char* name,
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int* nameLen,
const char** nextName )
{
/* Get the next component of the name */
*nextName = strchr(name, TEST_SEPARATOR);
if( *nextName != 0 )
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{
char n[255];
*nameLen = (int)((*nextName) - name);
(*nextName)++; /* skip '/' */
strncpy(n, name, *nameLen);
n[*nameLen] = 0;
/*printf("->%s-< [%d] -> [%s]\n", name, *nameLen, *nextName);*/
}
else {
*nameLen = (int)strlen(name);
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}
}
static TestNode *createTestNode(const char* name, int32_t nameLen)
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{
TestNode *newNode;
newNode = (TestNode*)malloc(sizeof(TestNode) + (nameLen + 1));
newNode->test = NULL;
newNode->sibling = NULL;
newNode->child = NULL;
strncpy( newNode->name, name, nameLen );
newNode->name[nameLen] = 0;
return newNode;
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}
void T_CTEST_EXPORT2
cleanUpTestTree(TestNode *tn)
{
if(tn->child != NULL) {
cleanUpTestTree(tn->child);
}
if(tn->sibling != NULL) {
cleanUpTestTree(tn->sibling);
}
free(tn);
}
void T_CTEST_EXPORT2
addTest(TestNode** root,
TestFunctionPtr test,
const char* name )
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{
TestNode *newNode;
/*if this is the first Test created*/
if (*root == NULL)
*root = createTestNode("", 0);
newNode = addTestNode( *root, name );
assert(newNode != 0 );
/* printf("addTest: nreName = %s\n", newNode->name );*/
newNode->test = test;
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}
/* non recursive insert function */
static TestNode *addTestNode ( TestNode *root, const char *name )
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{
const char* nextName;
TestNode *nextNode, *curNode;
int nameLen; /* length of current 'name' */
/* remove leading slash */
if ( *name == TEST_SEPARATOR )
name++;
curNode = root;
for(;;)
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{
/* Start with the next child */
nextNode = curNode->child;
getNextLevel ( name, &nameLen, &nextName );
/* printf("* %s\n", name );*/
/* if nextNode is already null, then curNode has no children
-- add them */
if( nextNode == NULL )
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{
/* Add all children of the node */
do
{
/* Get the next component of the name */
getNextLevel(name, &nameLen, &nextName);
/* update curName to have the next name segment */
curNode->child = createTestNode(name, nameLen);
/* printf("*** added %s\n", curNode->child->name );*/
curNode = curNode->child;
name = nextName;
}
while( name != NULL );
return curNode;
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}
/* Search across for the name */
while (strncmp_nullcheck ( name, nextNode->name, nameLen) != 0 )
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{
curNode = nextNode;
nextNode = nextNode -> sibling;
if ( nextNode == NULL )
{
/* Did not find 'name' on this level. */
nextNode = createTestNode(name, nameLen);
curNode->sibling = nextNode;
break;
}
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}
/* nextNode matches 'name' */
if (nextName == NULL) /* end of the line */
{
return nextNode;
}
/* Loop again with the next item */
name = nextName;
curNode = nextNode;
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}
}
/**
* Log the time taken. May not output anything.
* @param deltaTime change in time
*/
void T_CTEST_EXPORT2 str_timeDelta(char *str, UDate deltaTime) {
if (deltaTime > 110000.0 ) {
double mins = uprv_floor(deltaTime/60000.0);
sprintf(str, "[(%.0fm %.1fs)]", mins, (deltaTime-(mins*60000.0))/1000.0);
} else if (deltaTime > 1500.0) {
sprintf(str, "((%.1fs))", deltaTime/1000.0);
} else if(deltaTime>900.0) {
sprintf(str, "( %.2fs )", deltaTime/1000.0);
} else if(deltaTime > 5.0) {
sprintf(str, " (%.0fms) ", deltaTime);
} else {
str[0]=0; /* at least terminate it. */
}
}
static void print_timeDelta(UDate deltaTime) {
char str[256];
str_timeDelta(str, deltaTime);
if(str[0]) {
printf("%s", str);
}
}
/**
* Run or list tests (according to mode) in a subtree.
*
* @param root root of the subtree to operate on
* @param depth The depth of this tree (0=root)
* @param nodeList an array of MAXTESTS depth that's used for keeping track of where we are. nodeList[depth] points to the 'parent' at depth depth.
* @param mode what mode we are operating in.
*/
static void iterateTestsWithLevel ( const TestNode* root,
int depth,
const TestNode** nodeList,
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TestMode mode)
{
int i;
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char pathToFunction[MAXTESTNAME] = "";
char separatorString[2] = { TEST_SEPARATOR, '\0'};
#if SHOW_TIMES
UDate allStartTime = -1, allStopTime = -1;
#endif
if(depth<2) {
allStartTime = uprv_getRawUTCtime();
}
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if ( root == NULL )
return;
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/* record the current root node, and increment depth. */
nodeList[depth++] = root;
/* depth is now the depth of root's children. */
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/* Collect the 'path' to the current subtree. */
for ( i=0;i<(depth-1);i++ )
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{
strcat(pathToFunction, nodeList[i]->name);
strcat(pathToFunction, separatorString);
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}
strcat(pathToFunction, nodeList[i]->name); /* including 'root' */
/* print test name and space. */
INDENT_LEVEL = depth-1;
if(root->name[0]) {
log_testinfo_i("%s ", root->name);
} else {
log_testinfo_i("(%s) ", ARGV_0);
}
ON_LINE = TRUE; /* we are still on the line with the test name */
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if ( (mode == RUNTESTS) &&
(root->test != NULL)) /* if root is a leaf node, run it */
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{
int myERROR_COUNT = ERROR_COUNT;
int myGLOBAL_PRINT_COUNT = GLOBAL_PRINT_COUNT;
#if SHOW_TIMES
UDate startTime, stopTime;
char timeDelta[256];
char timeSeconds[256];
#else
const char timeDelta[] = "(unknown)";
const char timeSeconds[] = "0.000";
#endif
currentTest = root;
INDENT_LEVEL = depth; /* depth of subitems */
ONE_ERROR=0;
HANGING_OUTPUT=FALSE;
#if SHOW_TIMES
startTime = uprv_getRawUTCtime();
#endif
root->test(); /* PERFORM THE TEST ************************/
#if SHOW_TIMES
stopTime = uprv_getRawUTCtime();
#endif
if(HANGING_OUTPUT) {
log_testinfo("\n");
HANGING_OUTPUT=FALSE;
}
INDENT_LEVEL = depth-1; /* depth of root */
currentTest = NULL;
if((ONE_ERROR>0)&&(ERROR_COUNT==0)) {
ERROR_COUNT++; /* There was an error without a newline */
}
ONE_ERROR=0;
#if SHOW_TIMES
str_timeDelta(timeDelta, stopTime-startTime);
sprintf(timeSeconds, "%f", (stopTime-startTime)/1000.0);
#endif
ctest_xml_testcase(pathToFunction, pathToFunction, timeSeconds, (myERROR_COUNT!=ERROR_COUNT)?"error":NULL);
if (myERROR_COUNT != ERROR_COUNT) {
log_testinfo_i("} ---[%d ERRORS in %s] ", ERROR_COUNT - myERROR_COUNT, pathToFunction);
strcpy(ERROR_LOG[ERRONEOUS_FUNCTION_COUNT++], pathToFunction);
} else {
if(!ON_LINE) { /* had some output */
int spaces = FLAG_INDENT-(depth-1);
log_testinfo_i("} %*s[OK] ", spaces, "---");
if((GLOBAL_PRINT_COUNT-myGLOBAL_PRINT_COUNT)>PAGE_SIZE_LIMIT) {
log_testinfo(" %s ", pathToFunction); /* in case they forgot. */
}
} else {
/* put -- out at 30 sp. */
int spaces = FLAG_INDENT-(strlen(root->name)+depth);
if(spaces<0) spaces=0;
log_testinfo(" %*s[OK] ", spaces,"---");
}
}
#if SHOW_TIMES
if(timeDelta[0]) printf("%s", timeDelta);
#endif
ON_LINE = TRUE; /* we are back on-line */
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}
INDENT_LEVEL = depth-1; /* root */
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/* we want these messages to be at 0 indent. so just push the indent level breifly. */
if(mode==SHOWTESTS) {
log_testinfo("---%s%c\n",pathToFunction, nodeList[i]->test?' ':TEST_SEPARATOR );
}
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INDENT_LEVEL = depth;
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if(root->child) {
int myERROR_COUNT = ERROR_COUNT;
int myGLOBAL_PRINT_COUNT = GLOBAL_PRINT_COUNT;
if(mode!=SHOWTESTS) {
INDENT_LEVEL=depth-1;
log_testinfo("{\n");
INDENT_LEVEL=depth;
}
iterateTestsWithLevel ( root->child, depth, nodeList, mode );
if(mode!=SHOWTESTS) {
INDENT_LEVEL=depth-1;
log_testinfo_i("} "); /* TODO: summarize subtests */
if((depth>1) && (ERROR_COUNT > myERROR_COUNT)) {
log_testinfo("[%d %s in %s] ", ERROR_COUNT-myERROR_COUNT, (ERROR_COUNT-myERROR_COUNT)==1?"error":"errors", pathToFunction);
} else if((GLOBAL_PRINT_COUNT-myGLOBAL_PRINT_COUNT)>PAGE_SIZE_LIMIT || (depth<1)) {
if(pathToFunction[0]) {
log_testinfo(" %s ", pathToFunction); /* in case they forgot. */
} else {
log_testinfo(" / (%s) ", ARGV_0);
}
}
ON_LINE=TRUE;
}
}
depth--;
#if SHOW_TIMES
if(depth<2) {
allStopTime = uprv_getRawUTCtime();
print_timeDelta(allStopTime-allStartTime);
}
#endif
if(mode!=SHOWTESTS && ON_LINE) {
log_testinfo("\n");
}
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if ( depth != 0 ) { /* DO NOT iterate over siblings of the root. TODO: why not? */
iterateTestsWithLevel ( root->sibling, depth, nodeList, mode );
}
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}
void T_CTEST_EXPORT2
showTests ( const TestNode *root )
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{
/* make up one for them */
const TestNode *nodeList[MAXTESTS];
if (root == NULL)
log_err("TEST CAN'T BE FOUND!");
iterateTestsWithLevel ( root, 0, nodeList, SHOWTESTS );
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}
void T_CTEST_EXPORT2
runTests ( const TestNode *root )
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{
int i;
const TestNode *nodeList[MAXTESTS];
/* make up one for them */
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if (root == NULL)
log_err("TEST CAN'T BE FOUND!\n");
ERRONEOUS_FUNCTION_COUNT = ERROR_COUNT = 0;
iterateTestsWithLevel ( root, 0, nodeList, RUNTESTS );
/*print out result summary*/
ON_LINE=FALSE; /* just in case */
if (ERROR_COUNT)
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{
fprintf(stdout,"\nSUMMARY:\n");
fflush(stdout);
fprintf(stdout,"******* [Total error count:\t%d]\n", ERROR_COUNT);
fflush(stdout);
fprintf(stdout, " Errors in\n");
for (i=0;i < ERRONEOUS_FUNCTION_COUNT; i++)
fprintf(stdout, "[%s]\n",ERROR_LOG[i]);
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}
else
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{
log_testinfo("\n[All tests passed successfully...]\n");
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}
if(DATA_ERROR_COUNT) {
if(WARN_ON_MISSING_DATA==0) {
log_testinfo("\t*Note* some errors are data-loading related. If the data used is not the \n"
"\tstock ICU data (i.e some have been added or removed), consider using\n"
"\tthe '-w' option to turn these errors into warnings.\n");
} else {
log_testinfo("\t*WARNING* some data-loading errors were ignored by the -w option.\n");
}
}
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}
const char* T_CTEST_EXPORT2
getTestName(void)
{
if(currentTest != NULL) {
return currentTest->name;
} else {
return NULL;
}
}
const TestNode* T_CTEST_EXPORT2
getTest(const TestNode* root, const char* name)
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{
const char* nextName;
TestNode *nextNode;
const TestNode* curNode;
int nameLen; /* length of current 'name' */
if (root == NULL) {
log_err("TEST CAN'T BE FOUND!\n");
return NULL;
}
/* remove leading slash */
if ( *name == TEST_SEPARATOR )
name++;
curNode = root;
for(;;)
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{
/* Start with the next child */
nextNode = curNode->child;
getNextLevel ( name, &nameLen, &nextName );
/* printf("* %s\n", name );*/
/* if nextNode is already null, then curNode has no children
-- add them */
if( nextNode == NULL )
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{
return NULL;
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}
/* Search across for the name */
while (strncmp_nullcheck ( name, nextNode->name, nameLen) != 0 )
{
curNode = nextNode;
nextNode = nextNode -> sibling;
if ( nextNode == NULL )
{
/* Did not find 'name' on this level. */
return NULL;
}
}
/* nextNode matches 'name' */
if (nextName == NULL) /* end of the line */
{
return nextNode;
}
/* Loop again with the next item */
name = nextName;
curNode = nextNode;
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}
}
/* =========== io functions ======== */
static void go_offline_with_marker(const char *mrk) {
UBool wasON_LINE = ON_LINE;
if(ON_LINE) {
log_testinfo(" {\n");
ON_LINE=FALSE;
}
if(!HANGING_OUTPUT || wasON_LINE) {
if(mrk != NULL) {
fputs(mrk, stdout);
}
}
}
static void go_offline() {
go_offline_with_marker(NULL);
}
static void go_offline_err() {
go_offline();
}
static void first_line_verbose() {
go_offline_with_marker("v");
}
static void first_line_err() {
go_offline_with_marker("!");
}
static void first_line_info() {
go_offline_with_marker("\"");
}
static void first_line_test() {
fputs(" ", stdout);
}
static void vlog_err(const char *prefix, const char *pattern, va_list ap)
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{
if( ERR_MSG == FALSE){
return;
}
fputs("!", stdout); /* col 1 - bang */
fprintf(stdout, "%-*s", INDENT_LEVEL,"" );
if(prefix) {
fputs(prefix, stdout);
}
vfprintf(stdout, pattern, ap);
fflush(stdout);
va_end(ap);
if((*pattern==0) || (pattern[strlen(pattern)-1]!='\n')) {
HANGING_OUTPUT=1;
} else {
HANGING_OUTPUT=0;
}
GLOBAL_PRINT_COUNT++;
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}
void T_CTEST_EXPORT2
vlog_info(const char *prefix, const char *pattern, va_list ap)
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{
first_line_info();
fprintf(stdout, "%-*s", INDENT_LEVEL,"" );
if(prefix) {
fputs(prefix, stdout);
}
vfprintf(stdout, pattern, ap);
fflush(stdout);
va_end(ap);
if((*pattern==0) || (pattern[strlen(pattern)-1]!='\n')) {
HANGING_OUTPUT=1;
} else {
HANGING_OUTPUT=0;
}
GLOBAL_PRINT_COUNT++;
}
/**
* Log test structure, with indent
*/
static void log_testinfo_i(const char *pattern, ...)
{
va_list ap;
first_line_test();
fprintf(stdout, "%-*s", INDENT_LEVEL,"" );
va_start(ap, pattern);
vfprintf(stdout, pattern, ap);
fflush(stdout);
va_end(ap);
GLOBAL_PRINT_COUNT++;
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}
/**
* Log test structure (no ident)
*/
static void log_testinfo(const char *pattern, ...)
{
va_list ap;
va_start(ap, pattern);
first_line_test();
vfprintf(stdout, pattern, ap);
fflush(stdout);
va_end(ap);
GLOBAL_PRINT_COUNT++;
}
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static void vlog_verbose(const char *prefix, const char *pattern, va_list ap)
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{
if ( VERBOSITY == FALSE )
return;
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first_line_verbose();
fprintf(stdout, "%-*s", INDENT_LEVEL,"" );
if(prefix) {
fputs(prefix, stdout);
}
vfprintf(stdout, pattern, ap);
fflush(stdout);
va_end(ap);
GLOBAL_PRINT_COUNT++;
if((*pattern==0) || (pattern[strlen(pattern)-1]!='\n')) {
HANGING_OUTPUT=1;
} else {
HANGING_OUTPUT=0;
}
}
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void T_CTEST_EXPORT2
log_err(const char* pattern, ...)
{
va_list ap;
first_line_err();
if(strchr(pattern, '\n') != NULL) {
/*
* Count errors only if there is a line feed in the pattern
* so that we do not exaggerate our error count.
*/
++ERROR_COUNT;
} else {
/* Count at least one error. */
ONE_ERROR=1;
}
va_start(ap, pattern);
vlog_err(NULL, pattern, ap);
}
void T_CTEST_EXPORT2
log_err_status(UErrorCode status, const char* pattern, ...)
{
va_list ap;
va_start(ap, pattern);
if ((status == U_FILE_ACCESS_ERROR || status == U_MISSING_RESOURCE_ERROR)) {
++DATA_ERROR_COUNT; /* for informational message at the end */
if (WARN_ON_MISSING_DATA == 0) {
first_line_err();
/* Fatal error. */
if (strchr(pattern, '\n') != NULL) {
++ERROR_COUNT;
} else {
++ONE_ERROR;
}
vlog_err(NULL, pattern, ap); /* no need for prefix in default case */
} else {
vlog_info("[DATA] ", pattern, ap);
}
} else {
first_line_err();
/* Fatal error. */
if(strchr(pattern, '\n') != NULL) {
++ERROR_COUNT;
} else {
++ONE_ERROR;
}
vlog_err(NULL, pattern, ap); /* no need for prefix in default case */
}
}
void T_CTEST_EXPORT2
log_info(const char* pattern, ...)
{
va_list ap;
va_start(ap, pattern);
vlog_info(NULL, pattern, ap);
}
void T_CTEST_EXPORT2
log_verbose(const char* pattern, ...)
{
va_list ap;
va_start(ap, pattern);
vlog_verbose(NULL, pattern, ap);
}
void T_CTEST_EXPORT2
log_data_err(const char* pattern, ...)
{
va_list ap;
va_start(ap, pattern);
go_offline_err();
++DATA_ERROR_COUNT; /* for informational message at the end */
if(WARN_ON_MISSING_DATA == 0) {
/* Fatal error. */
if(strchr(pattern, '\n') != NULL) {
++ERROR_COUNT;
}
vlog_err(NULL, pattern, ap); /* no need for prefix in default case */
} else {
vlog_info("[DATA] ", pattern, ap);
}
}
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/*
* Tracing functions.
*/
static int traceFnNestingDepth = 0;
U_CDECL_BEGIN
static void U_CALLCONV TraceEntry(const void *context, int32_t fnNumber) {
char buf[500];
utrace_format(buf, sizeof(buf), traceFnNestingDepth*3, "%s() enter.\n", utrace_functionName(fnNumber)); buf[sizeof(buf)-1]=0;
fputs(buf, stdout);
traceFnNestingDepth++;
}
static void U_CALLCONV TraceExit(const void *context, int32_t fnNumber, const char *fmt, va_list args) { char buf[500];
if (traceFnNestingDepth>0) {
traceFnNestingDepth--;
}
utrace_format(buf, sizeof(buf), traceFnNestingDepth*3, "%s() ", utrace_functionName(fnNumber)); buf[sizeof(buf)-1]=0;
fputs(buf, stdout);
utrace_vformat(buf, sizeof(buf), traceFnNestingDepth*3, fmt, args);
buf[sizeof(buf)-1]=0;
fputs(buf, stdout);
putc('\n', stdout);
}
static void U_CALLCONV TraceData(const void *context, int32_t fnNumber,
int32_t level, const char *fmt, va_list args) {
char buf[500];
utrace_vformat(buf, sizeof(buf), traceFnNestingDepth*3, fmt, args);
buf[sizeof(buf)-1]=0;
fputs(buf, stdout);
putc('\n', stdout);
}
static void *U_CALLCONV ctest_libMalloc(const void *context, size_t size) {
/*if (VERBOSITY) {
printf("Allocated %ld\n", (long)size);
}*/
if (MINIMUM_MEMORY_SIZE_FAILURE <= size && size <= MAXIMUM_MEMORY_SIZE_FAILURE) {
return NULL;
}
umtx_atomic_inc(&ALLOCATION_COUNT);
return malloc(size);
}
static void *U_CALLCONV ctest_libRealloc(const void *context, void *mem, size_t size) {
/*if (VERBOSITY) {
printf("Reallocated %ld\n", (long)size);
}*/
if (MINIMUM_MEMORY_SIZE_FAILURE <= size && size <= MAXIMUM_MEMORY_SIZE_FAILURE) {
/*free(mem);*/ /* Realloc doesn't free on failure. */
return NULL;
}
if (mem == NULL) {
/* New allocation. */
umtx_atomic_inc(&ALLOCATION_COUNT);
}
return realloc(mem, size);
}
static void U_CALLCONV ctest_libFree(const void *context, void *mem) {
if (mem != NULL) {
umtx_atomic_dec(&ALLOCATION_COUNT);
}
free(mem);
}
int T_CTEST_EXPORT2
initArgs( int argc, const char* const argv[], ArgHandlerPtr argHandler, void *context)
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{
int i;
int doList = FALSE;
int argSkip = 0;
VERBOSITY = FALSE;
ERR_MSG = TRUE;
ARGV_0=argv[0];
for( i=1; i<argc; i++)
{
if ( argv[i][0] == '/' )
{
/* We don't run the tests here. */
continue;
}
else if ((strcmp( argv[i], "-a") == 0) || (strcmp(argv[i],"-all") == 0))
{
/* We don't run the tests here. */
continue;
}
else if (strcmp( argv[i], "-v" )==0 || strcmp( argv[i], "-verbose")==0)
{
VERBOSITY = TRUE;
}
else if (strcmp( argv[i], "-l" )==0 )
{
doList = TRUE;
}
else if (strcmp( argv[i], "-e1") == 0)
{
QUICK = -1;
}
else if (strcmp( argv[i], "-e") ==0)
{
QUICK = 0;
}
else if (strcmp( argv[i], "-w") ==0)
{
WARN_ON_MISSING_DATA = TRUE;
}
else if (strcmp( argv[i], "-m") ==0)
{
UErrorCode errorCode = U_ZERO_ERROR;
if (i+1 < argc) {
char *endPtr = NULL;
i++;
MINIMUM_MEMORY_SIZE_FAILURE = (size_t)strtol(argv[i], &endPtr, 10);
if (endPtr == argv[i]) {
printf("Can't parse %s\n", argv[i]);
help(argv[0]);
return 0;
}
if (*endPtr == '-') {
char *maxPtr = endPtr+1;
endPtr = NULL;
MAXIMUM_MEMORY_SIZE_FAILURE = (size_t)strtol(maxPtr, &endPtr, 10);
if (endPtr == argv[i]) {
printf("Can't parse %s\n", argv[i]);
help(argv[0]);
return 0;
}
}
}
/* Use the default value */
u_setMemoryFunctions(NULL, ctest_libMalloc, ctest_libRealloc, ctest_libFree, &errorCode);
if (U_FAILURE(errorCode)) {
printf("u_setMemoryFunctions returned %s\n", u_errorName(errorCode));
return 0;
}
}
else if(strcmp( argv[i], "-n") == 0 || strcmp( argv[i], "-no_err_msg") == 0)
{
ERR_MSG = FALSE;
}
else if (strcmp( argv[i], "-r") == 0)
{
if (!REPEAT_TESTS_INIT) {
REPEAT_TESTS++;
}
}
else if (strcmp( argv[i], "-x") == 0)
{
if(++i>=argc) {
printf("* Error: '-x' option requires an argument. usage: '-x outfile.xml'.\n");
return 0;
}
if(ctest_xml_setFileName(argv[i])) { /* set the name */
return 0;
}
}
else if (strcmp( argv[i], "-t_info") == 0) {
ICU_TRACE = UTRACE_INFO;
}
else if (strcmp( argv[i], "-t_error") == 0) {
ICU_TRACE = UTRACE_ERROR;
}
else if (strcmp( argv[i], "-t_warn") == 0) {
ICU_TRACE = UTRACE_WARNING;
}
else if (strcmp( argv[i], "-t_verbose") == 0) {
ICU_TRACE = UTRACE_VERBOSE;
}
else if (strcmp( argv[i], "-t_oc") == 0) {
ICU_TRACE = UTRACE_OPEN_CLOSE;
}
else if (strcmp( argv[i], "-h" )==0 || strcmp( argv[i], "--help" )==0)
{
help( argv[0] );
return 0;
}
else if (argHandler != NULL && (argSkip = argHandler(i, argc, argv, context)) > 0)
{
i += argSkip - 1;
}
else
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{
printf("* unknown option: %s\n", argv[i]);
help( argv[0] );
return 0;
}
}
if (ICU_TRACE != UTRACE_OFF) {
utrace_setFunctions(NULL, TraceEntry, TraceExit, TraceData);
utrace_setLevel(ICU_TRACE);
}
return 1; /* total error count */
}
int T_CTEST_EXPORT2
runTestRequest(const TestNode* root,
int argc,
const char* const argv[])
{
/**
* This main will parse the l, v, h, n, and path arguments
*/
const TestNode* toRun;
int i;
int doList = FALSE;
int subtreeOptionSeen = FALSE;
int errorCount = 0;
toRun = root;
if(ctest_xml_init(ARGV_0)) {
return 1; /* couldn't fire up XML thing */
}
for( i=1; i<argc; i++)
{
if ( argv[i][0] == '/' )
{
printf("Selecting subtree '%s'\n", argv[i]);
if ( argv[i][1] == 0 )
toRun = root;
else
toRun = getTest(root, argv[i]);
if ( toRun == NULL )
{
printf("* Could not find any matching subtree\n");
return -1;
}
ON_LINE=FALSE; /* just in case */
if( doList == TRUE)
showTests(toRun);
else
runTests(toRun);
ON_LINE=FALSE; /* just in case */
errorCount += ERROR_COUNT;
subtreeOptionSeen = TRUE;
} else if ((strcmp( argv[i], "-a") == 0) || (strcmp(argv[i],"-all") == 0)) {
subtreeOptionSeen=FALSE;
} else if (strcmp( argv[i], "-l") == 0) {
doList = TRUE;
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}
/* else option already handled by initArgs */
}
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if( subtreeOptionSeen == FALSE) /* no other subtree given, run the default */
{
ON_LINE=FALSE; /* just in case */
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if( doList == TRUE)
showTests(toRun);
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else
runTests(toRun);
ON_LINE=FALSE; /* just in case */
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errorCount += ERROR_COUNT;
}
else
{
if( ( doList == FALSE ) && ( errorCount > 0 ) )
printf(" Total errors: %d\n", errorCount );
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}
REPEAT_TESTS_INIT = 1;
if(ctest_xml_fini()) {
errorCount++;
}
return errorCount; /* total error count */
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}
/**
* Display program invocation arguments
*/
static void help ( const char *argv0 )
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{
printf("Usage: %s [ -l ] [ -v ] [ -verbose] [-a] [ -all] [-n] [ -no_err_msg]\n"
" [ -h ] [-t_info | -t_error | -t_warn | -t_oc | -t_verbose] [-m n[-q] ]\n"
" [ /path/to/test ]\n",
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argv0);
printf(" -l To get a list of test names\n");
printf(" -e to do exhaustive testing\n");
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printf(" -verbose To turn ON verbosity\n");
printf(" -v To turn ON verbosity(same as -verbose)\n");
printf(" -x file.xml Write junit format output to file.xml\n");
printf(" -h To print this message\n");
printf(" -n To turn OFF printing error messages\n");
printf(" -w Don't fail on data-loading errs, just warn. Useful if\n"
" user has reduced/changed the common set of ICU data \n");
printf(" -t_info | -t_error | -t_warn | -t_oc | -t_verbose Enable ICU tracing\n");
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printf(" -no_err_msg (same as -n) \n");
printf(" -m n[-q] Min-Max memory size that will cause an allocation failure.\n");
printf(" The default is the maximum value of size_t. Max is optional.\n");
printf(" -r Repeat tests after calling u_cleanup \n");
printf(" [/subtest] To run a subtest \n");
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printf(" eg: to run just the utility tests type: cintltest /tsutil) \n");
}
int32_t T_CTEST_EXPORT2
getTestOption ( int32_t testOption ) {
switch (testOption) {
case VERBOSITY_OPTION:
return VERBOSITY;
case WARN_ON_MISSING_DATA_OPTION:
return WARN_ON_MISSING_DATA;
case QUICK_OPTION:
return QUICK;
case REPEAT_TESTS_OPTION:
return REPEAT_TESTS;
case ERR_MSG_OPTION:
return ERR_MSG;
case ICU_TRACE_OPTION:
return ICU_TRACE;
default :
return 0;
}
}
void T_CTEST_EXPORT2
setTestOption ( int32_t testOption, int32_t value) {
if (value == DECREMENT_OPTION_VALUE) {
value = getTestOption(testOption);
--value;
}
switch (testOption) {
case VERBOSITY_OPTION:
VERBOSITY = value;
break;
case WARN_ON_MISSING_DATA_OPTION:
WARN_ON_MISSING_DATA = value;
break;
case QUICK_OPTION:
QUICK = value;
break;
case REPEAT_TESTS_OPTION:
REPEAT_TESTS = value;
break;
case ICU_TRACE_OPTION:
ICU_TRACE = value;
break;
default :
break;
}
}
/*
* ================== JUnit support ================================
*/
int32_t
T_CTEST_EXPORT2
ctest_xml_setFileName(const char *name) {
XML_FILE_NAME=name;
return 0;
}
int32_t
T_CTEST_EXPORT2
ctest_xml_init(const char *rootName) {
if(!XML_FILE_NAME) return 0;
XML_FILE = fopen(XML_FILE_NAME,"w");
if(!XML_FILE) {
perror("fopen");
fprintf(stderr," Error: couldn't open XML output file %s\n", XML_FILE_NAME);
return 1;
}
while(*rootName&&!isalnum(*rootName)) {
rootName++;
}
strcpy(XML_PREFIX,rootName);
{
char *p = XML_PREFIX+strlen(XML_PREFIX);
for(p--;*p&&p>XML_PREFIX&&!isalnum(*p);p--) {
*p=0;
}
}
/* write prefix */
fprintf(XML_FILE, "<testsuite name=\"%s\">\n", XML_PREFIX);
return 0;
}
int32_t
T_CTEST_EXPORT2
ctest_xml_fini(void) {
if(!XML_FILE) return 0;
fprintf(XML_FILE, "</testsuite>\n");
fclose(XML_FILE);
printf(" ( test results written to %s )\n", XML_FILE_NAME);
XML_FILE=0;
return 0;
}
int32_t
T_CTEST_EXPORT2
ctest_xml_testcase(const char *classname, const char *name, const char *time, const char *failMsg) {
if(!XML_FILE) return 0;
fprintf(XML_FILE, "\t<testcase classname=\"%s:%s\" name=\"%s:%s\" time=\"%s\"", XML_PREFIX, classname, XML_PREFIX, name, time);
if(failMsg) {
fprintf(XML_FILE, ">\n\t\t<failure type=\"err\" message=\"%s\"/>\n\t</testcase>\n", failMsg);
} else {
fprintf(XML_FILE, "/>\n");
}
return 0;
}