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|
// =============================================================== //
// //
// File : arb_probe.cxx //
// Purpose : //
// //
// Institute of Microbiology (Technical University Munich) //
// http://www.arb-home.de/ //
// //
// =============================================================== //
#include <PT_com.h>
#include <arbdb.h>
#include <client.h>
#include <servercntrl.h>
#include <arb_defs.h>
#include <arb_strbuf.h>
#include <arb_diff.h>
#include <RegExpr.hxx>
#include <algorithm>
#include <string> // need to include before test_unit.h
#include <unistd.h>
struct apd_sequence {
apd_sequence *next;
const char *sequence;
};
struct Params {
int DESIGNCLIPOUTPUT;
int SERVERID;
const char *DESIGNNAMES;
int DESIGNPROBELEN;
int DESIGNMAXPROBELEN;
const char *DESIGNSEQUENCE;
int MINTEMP;
int MAXTEMP;
int MINGC;
int MAXGC;
int MAXBOND;
int MINPOS;
int MAXPOS;
int MISHIT;
int MINTARGETS;
const char *SEQUENCE;
int MISMATCHES;
int ACCEPTN;
int LIMITN;
int MAXRESULT;
int COMPLEMENT;
int WEIGHTED;
apd_sequence *sequence;
int ITERATE;
int ITERATE_AMOUNT;
int ITERATE_READABLE;
const char *ITERATE_SEPARATOR;
const char *ITERATE_TU;
const char *DUMP;
};
struct gl_struct {
aisc_com *link;
T_PT_MAIN com;
T_PT_LOCS locs;
int pd_design_id;
gl_struct()
: link(0),
pd_design_id(0)
{
}
};
static Params P;
static gl_struct pd_gl;
static int init_local_com_struct() {
const char *user = GB_getenvUSER();
if (aisc_create(pd_gl.link, PT_MAIN, pd_gl.com,
MAIN_LOCS, PT_LOCS, pd_gl.locs,
LOCS_USER, user,
NULL)) {
return 1;
}
return 0;
}
static const char *AP_probe_pt_look_for_server(ARB_ERROR& error) {
const char *server_tag = GBS_ptserver_tag(P.SERVERID);
error = arb_look_and_start_server(AISC_MAGIC_NUMBER, server_tag);
if (error) return NULL;
return GBS_read_arb_tcp(server_tag);
}
class PTserverConnection {
static int count;
bool need_close;
public:
PTserverConnection(ARB_ERROR& error)
: need_close(false)
{
if (count) {
error = "Only 1 PTserverConnection allowed";
}
else {
++count;
const char *servername = AP_probe_pt_look_for_server(error);
if (servername) {
GB_ERROR openerr = NULL;
pd_gl.link = aisc_open(servername, pd_gl.com, AISC_MAGIC_NUMBER, &openerr);
if (openerr) {
error = openerr;
}
else {
if (!pd_gl.link) {
error = "Cannot contact PT_SERVER [1]";
}
else if (init_local_com_struct()) {
error = "Cannot contact PT_SERVER [2]";
}
else {
need_close = true;
}
}
}
}
}
~PTserverConnection() {
if (need_close) {
aisc_close(pd_gl.link, pd_gl.com);
pd_gl.link = 0;
}
--count;
}
};
int PTserverConnection::count = 0;
static char *AP_dump_index_event(ARB_ERROR& error) {
PTserverConnection contact(error);
char *result = NULL;
if (!error) {
aisc_put(pd_gl.link, PT_MAIN, pd_gl.com,
MAIN_DUMP_NAME, P.DUMP,
NULL);
if (aisc_get(pd_gl.link, PT_MAIN, pd_gl.com,
MAIN_DUMP_INDEX, &result,
NULL)) {
error = "Connection to PT_SERVER lost (1)";
}
else {
result = strdup("ok");
}
}
return result;
}
static char *AP_probe_iterate_event(ARB_ERROR& error) {
PTserverConnection contact(error);
char *result = NULL;
if (!error) {
T_PT_PEP pep;
int length = P.ITERATE;
if (aisc_create(pd_gl.link, PT_LOCS, pd_gl.locs,
LOCS_PROBE_FIND_CONFIG, PT_PEP, pep,
PEP_PLENGTH, (long)length,
PEP_RESTART, (long)1,
PEP_READABLE, (long)P.ITERATE_READABLE,
PEP_TU, (long)P.ITERATE_TU[0],
PEP_SEPARATOR, (long)P.ITERATE_SEPARATOR[0],
NULL))
{
error = "Connection to PT_SERVER lost (1)";
}
if (!error) {
int amount = P.ITERATE_AMOUNT;
int amount_per_call = AISC_MAX_STRING_LEN/(length+2);
GBS_strstruct out(50000);
bool first = true;
while (amount && !error) {
int this_amount = std::min(amount, amount_per_call);
aisc_put(pd_gl.link, PT_PEP, pep,
PEP_NUMGET, (long)this_amount,
PEP_FIND_PROBES, 0,
NULL);
char *pep_result = 0;
if (aisc_get(pd_gl.link, PT_PEP, pep,
PEP_RESULT, &pep_result,
NULL)) {
error = "Connection to PT_SERVER lost (2)";
}
if (!error) {
if (pep_result[0]) {
if (first) first = false;
else out.put(P.ITERATE_SEPARATOR[0]);
out.cat(pep_result);
amount -= this_amount;
}
else {
amount = 0; // terminate loop
}
}
free(pep_result);
}
if (!error) {
result = out.release();
}
}
}
if (error) freenull(result);
return result;
}
static char *AP_probe_design_event(ARB_ERROR& error) {
PTserverConnection contact(error);
if (!error) {
bytestring bs;
bs.data = (char*)(P.DESIGNNAMES);
bs.size = strlen(bs.data)+1;
T_PT_PDC pdc;
if (aisc_create(pd_gl.link, PT_LOCS, pd_gl.locs,
LOCS_PROBE_DESIGN_CONFIG, PT_PDC, pdc,
PDC_MIN_PROBELEN, (long)P.DESIGNPROBELEN,
PDC_MAX_PROBELEN, (long)P.DESIGNMAXPROBELEN,
PDC_MINTEMP, (double)P.MINTEMP,
PDC_MAXTEMP, (double)P.MAXTEMP,
PDC_MINGC, P.MINGC/100.0,
PDC_MAXGC, P.MAXGC/100.0,
PDC_MAXBOND, (double)P.MAXBOND,
PDC_MIN_ECOLIPOS, (long)P.MINPOS,
PDC_MAX_ECOLIPOS, (long)P.MAXPOS,
PDC_MISHIT, (long)P.MISHIT,
PDC_MINTARGETS, P.MINTARGETS/100.0,
PDC_CLIPRESULT, (long)P.DESIGNCLIPOUTPUT,
NULL))
{
error = "Connection to PT_SERVER lost (1)";
}
if (!error) {
for (apd_sequence *s = P.sequence; s; ) {
apd_sequence *next = s->next;
bytestring bs_seq;
T_PT_SEQUENCE pts;
bs_seq.data = (char*)s->sequence;
bs_seq.size = strlen(bs_seq.data)+1;
aisc_create(pd_gl.link, PT_PDC, pdc,
PDC_SEQUENCE, PT_SEQUENCE, pts,
SEQUENCE_SEQUENCE, &bs_seq,
NULL);
delete s;
s = next;
}
aisc_put(pd_gl.link, PT_PDC, pdc,
PDC_NAMES, &bs,
PDC_GO, 0,
NULL);
{
char *locs_error = 0;
if (aisc_get(pd_gl.link, PT_LOCS, pd_gl.locs,
LOCS_ERROR, &locs_error,
NULL)) {
error = "Connection to PT_SERVER lost (2)";
}
else {
if (*locs_error) error = GBS_static_string(locs_error);
free(locs_error);
}
}
if (!error) {
T_PT_TPROBE tprobe;
aisc_get(pd_gl.link, PT_PDC, pdc,
PDC_TPROBE, tprobe.as_result_param(),
NULL);
GBS_strstruct *outstr = GBS_stropen(1000);
if (tprobe.exists()) {
char *match_info = 0;
aisc_get(pd_gl.link, PT_PDC, pdc,
PDC_INFO_HEADER, &match_info,
NULL);
GBS_strcat(outstr, match_info);
GBS_chrcat(outstr, '\n');
free(match_info);
}
while (tprobe.exists()) {
char *match_info = 0;
if (aisc_get(pd_gl.link, PT_TPROBE, tprobe,
TPROBE_NEXT, tprobe.as_result_param(),
TPROBE_INFO, &match_info,
NULL)) break;
GBS_strcat(outstr, match_info);
GBS_chrcat(outstr, '\n');
free(match_info);
}
return GBS_strclose(outstr);
}
}
}
return NULL;
}
static char *AP_probe_match_event(ARB_ERROR& error) {
PTserverConnection contact(error);
if (!error &&
aisc_nput(pd_gl.link, PT_LOCS, pd_gl.locs,
LOCS_MATCH_REVERSED, (long)P.COMPLEMENT,
LOCS_MATCH_SORT_BY, (long)P.WEIGHTED,
LOCS_MATCH_COMPLEMENT, 0L,
LOCS_MATCH_MAX_MISMATCHES, (long)P.MISMATCHES,
LOCS_MATCH_N_ACCEPT, (long)P.ACCEPTN,
LOCS_MATCH_N_LIMIT, (long)P.LIMITN,
LOCS_MATCH_MAX_HITS, (long)P.MAXRESULT,
LOCS_SEARCHMATCH, P.SEQUENCE,
NULL)) {
error = "Connection to PT_SERVER lost (1)";
}
if (!error) {
bytestring bs;
bs.data = 0;
{
char *locs_error = 0;
T_PT_MATCHLIST match_list;
long match_list_cnt;
aisc_get(pd_gl.link, PT_LOCS, pd_gl.locs,
LOCS_MATCH_LIST, match_list.as_result_param(),
LOCS_MATCH_LIST_CNT, &match_list_cnt,
LOCS_MATCH_STRING, &bs,
LOCS_ERROR, &locs_error,
NULL);
if (*locs_error) error = GBS_static_string(locs_error);
free(locs_error);
}
if (!error) return bs.data; // freed by caller
free(bs.data);
}
return NULL;
}
static int pargc;
static const char **pargv = NULL;
static bool showhelp;
static int getInt(const char *param, int val, int min, int max, const char *description) {
if (showhelp) {
printf(" %s=%i [%i .. %i] %s\n", param, val, min, max, description);
return 0;
}
int i;
const char *s = 0;
arb_assert(pargc >= 1); // otherwise s stays 0
for (i=1; i<pargc; i++) {
s = pargv[i];
if (*s == '-') s++;
if (!strncasecmp(s, param, strlen(param))) break;
}
if (i==pargc) return val;
s += strlen(param);
if (*s != '=') return val;
s++;
val = atoi(s);
pargc--; // remove parameter
for (; i<pargc; i++) {
pargv[i] = pargv[i+1];
}
if (val<min) val = min;
if (val>max) val = max;
return val;
}
static const char *getString(const char *param, const char *val, const char *description) {
if (showhelp) {
if (!val) val = "";
printf(" %s=%s %s\n", param, val, description);
return 0;
}
int i;
const char *s = 0;
arb_assert(pargc >= 1); // otherwise s stays 0
for (i=1; i<pargc; i++) {
s = pargv[i];
if (*s == '-') s++;
if (!strncasecmp(s, param, strlen(param))) break;
}
if (i==pargc) return val;
s += strlen(param);
if (*s != '=') return val;
s++;
pargc--; // remove parameter
for (; i<pargc; i++) {
pargv[i] = pargv[i+1];
}
return s;
}
static bool parseCommandLine(int argc, const char * const * const argv) {
pargc = argc;
// copy argv (since parser will remove matched arguments)
free(pargv);
pargv = (const char **)malloc(sizeof(*pargv)*pargc);
for (int i=0; i<pargc; i++) pargv[i] = argv[i];
showhelp = (pargc <= 1);
#ifdef UNIT_TESTS // UT_DIFF
const int minServerID = TEST_GENESERVER_ID;
#else // !UNIT_TESTS
const int minServerID = 0;
#endif
P.SERVERID = getInt("serverid", 0, minServerID, 100, "Server Id, look into $ARBHOME/lib/arb_tcp.dat");
#ifdef UNIT_TESTS // UT_DIFF
if (P.SERVERID<0) { arb_assert(P.SERVERID == TEST_SERVER_ID || P.SERVERID == TEST_GENESERVER_ID); }
#endif
P.DESIGNCLIPOUTPUT = getInt("designmaxhits", 100, 10, 10000, "Maximum Number of Probe Design Suggestions");
P.DESIGNNAMES = getString("designnames", "", "List of short names separated by '#'");
P.sequence = 0;
while ((P.DESIGNSEQUENCE = getString("designsequence", 0, "Additional Sequences, will be added to the target group"))) {
apd_sequence *s = new apd_sequence;
s->next = P.sequence;
P.sequence = s;
s->sequence = P.DESIGNSEQUENCE;
P.DESIGNSEQUENCE = 0;
}
P.DESIGNPROBELEN = getInt("designprobelength", 18, 2, 100, "(min.) length of probe");
P.DESIGNMAXPROBELEN = getInt("designmaxprobelength", -1, -1, 100, "max. length of probe (if specified)");
P.MINTEMP = getInt("designmintemp", 0, 0, 400, "Minimum melting temperature of probe");
P.MAXTEMP = getInt("designmaxtemp", 400, 0, 400, "Maximum melting temperature of probe");
P.MINGC = getInt("designmingc", 30, 0, 100, "Minimum gc content");
P.MAXGC = getInt("designmaxgc", 80, 0, 100, "Maximum gc content");
P.MAXBOND = getInt("designmaxbond", 0, 0, 10, "Not implemented");
P.MINPOS = getInt("designminpos", -1, -1, INT_MAX, "Minimum ecoli position (-1=none)");
P.MAXPOS = getInt("designmaxpos", -1, -1, INT_MAX, "Maximum ecoli position (-1=none)");
P.MISHIT = getInt("designmishit", 0, 0, 10000, "Number of allowed hits outside the selected group");
P.MINTARGETS = getInt("designmintargets", 50, 0, 100, "Minimum percentage of hits within the selected species");
P.SEQUENCE = getString("matchsequence", "agtagtagt", "The sequence to search for");
P.MISMATCHES = getInt("matchmismatches", 0, 0, 5, "Maximum Number of allowed mismatches");
P.COMPLEMENT = getInt("matchcomplement", 0, 0, 1, "Match reversed and complemented probe");
P.WEIGHTED = getInt("matchweighted", 0, 0, 1, "Use weighted mismatches");
P.ACCEPTN = getInt("matchacceptN", 1, 0, 20, "Amount of N-matches not counted as mismatch");
P.LIMITN = getInt("matchlimitN", 4, 0, 20, "Limit for N-matches. If reached N-matches are mismatches");
P.MAXRESULT = getInt("matchmaxresults", 1000000, 0, INT_MAX, "Max. number of matches reported (0=unlimited)");
P.ITERATE = getInt("iterate", 0, 1, 20, "Iterate over probes of given length");
P.ITERATE_AMOUNT = getInt("iterate_amount", 100, 1, INT_MAX, "Number of results per answer");
P.ITERATE_READABLE = getInt("iterate_readable", 1, 0, 1, "readable results");
P.ITERATE_TU = getString("iterate_tu", "T", "use T or U in readable result");
P.ITERATE_SEPARATOR = getString("iterate_separator", ";", "Number of results per answer");
P.DUMP = getString("dump", "", "dump ptserver index to file (may be huge!)");
if (pargc>1) {
printf("Unknown (or duplicate) parameter %s\n", pargv[1]);
return false;
}
return !showhelp;
}
// --------------------------------------------------------------------------------
#ifdef UNIT_TESTS
#ifndef TEST_UNIT_H
#include <test_unit.h>
#endif
void TEST_BASIC_parseCommandLine() {
{
const char *args[] = { NULL, "serverid=0"};
TEST_EXPECT(parseCommandLine(ARRAY_ELEMS(args), args));
// test default values here
TEST_EXPECT_EQUAL(P.ACCEPTN, 1);
TEST_EXPECT_EQUAL(P.LIMITN, 4);
TEST_EXPECT_EQUAL(P.MISMATCHES, 0);
TEST_EXPECT_EQUAL(P.MAXRESULT, 1000000);
}
{
const char *args[] = {NULL, "serverid=4", "matchmismatches=2"};
TEST_EXPECT(parseCommandLine(ARRAY_ELEMS(args), args));
TEST_EXPECT_EQUAL(P.SERVERID, 4);
TEST_EXPECT_EQUAL(P.MISMATCHES, 2);
TEST_EXPECT_EQUAL(args[1], "serverid=4"); // check array args was not modified
}
{
const char *args[] = { NULL, "matchacceptN=0", "matchlimitN=5"};
TEST_EXPECT(parseCommandLine(ARRAY_ELEMS(args), args));
TEST_EXPECT_EQUAL(P.ACCEPTN, 0);
TEST_EXPECT_EQUAL(P.LIMITN, 5);
}
{
const char *args[] = { NULL, "matchmaxresults=100"};
TEST_EXPECT(parseCommandLine(ARRAY_ELEMS(args), args));
TEST_EXPECT_EQUAL(P.MAXRESULT, 100);
}
}
#endif // UNIT_TESTS
// --------------------------------------------------------------------------------
static char *execute(ARB_ERROR& error) {
char *answer;
if (*P.DESIGNNAMES || P.sequence) {
answer = AP_probe_design_event(error);
}
else if (P.ITERATE>0) {
answer = AP_probe_iterate_event(error);
}
else if (P.DUMP[0]) {
answer = AP_dump_index_event(error);
}
else {
answer = AP_probe_match_event(error);
}
pd_gl.locs.clear();
return answer;
}
int ARB_main(int argc, char *argv[]) {
bool ok = parseCommandLine(argc, argv);
if (ok) {
ARB_ERROR error;
char *answer = execute(error);
arb_assert(contradicted(answer, error));
if (!answer) {
fprintf(stderr,
"arb_probe: Failed to process your request\n"
" Reason: %s",
error.deliver());
ok = false;
}
else {
fputs(answer, stdout);
free(answer);
error.expect_no_error();
}
}
return ok ? EXIT_SUCCESS : EXIT_FAILURE;
}
// --------------------------------------------------------------------------------
#ifdef UNIT_TESTS
#ifndef TEST_UNIT_H
#include <test_unit.h>
#endif
static int test_setup(bool use_gene_ptserver) {
static bool setup[2] = { false, false };
if (!setup[use_gene_ptserver]) {
TEST_SETUP_GLOBAL_ENVIRONMENT(use_gene_ptserver ? "ptserver_gene" : "ptserver"); // first call will recreate the test pt-server
setup[use_gene_ptserver] = true;
}
return use_gene_ptserver ? TEST_GENESERVER_ID : TEST_SERVER_ID;
}
// ----------------------------------
// test probe design / match
#define TEST_RUN_ARB_PROBE__INT(fake_argc,fake_argv) \
int serverid = test_setup(use_gene_ptserver); \
TEST_EXPECT_EQUAL(true, parseCommandLine(fake_argc, fake_argv)); \
TEST_EXPECT((serverid == TEST_SERVER_ID)||(serverid == TEST_GENESERVER_ID)); \
P.SERVERID = serverid; \
ARB_ERROR error; \
char *answer = execute(error)
#define TEST_ARB_PROBE__REPORTS_ERROR(fake_argc,fake_argv,expected_error) \
TEST_RUN_ARB_PROBE__INT(fake_argc,fake_argv); \
free(answer); \
TEST_EXPECT_ERROR_CONTAINS(error.deliver(), expected_error)
#define TEST_ARB_PROBE__REPORTS_ERROR__BROKEN(fake_argc,fake_argv,expected_error) \
TEST_RUN_ARB_PROBE__INT(fake_argc,fake_argv); \
free(answer); \
TEST_EXPECT_ANY_ERROR(error.preserve()); \
TEST_EXPECT_ERROR_CONTAINS__BROKEN(error.deliver(), expected_error)
#define TEST_RUN_ARB_PROBE(fake_argc,fake_argv) \
TEST_RUN_ARB_PROBE__INT(fake_argc,fake_argv); \
TEST_EXPECT_NO_ERROR(error.deliver())
#define TEST_ARB_PROBE(fake_argc,fake_argv,expected) do { \
TEST_RUN_ARB_PROBE(fake_argc,fake_argv); \
TEST_EXPECT_EQUAL(answer, expected); \
free(answer); \
} while(0)
#define TEST_ARB_PROBE__BROKEN(fake_argc,fake_argv,expected) do { \
TEST_RUN_ARB_PROBE(fake_argc,fake_argv); \
TEST_EXPECT_EQUAL__BROKEN(answer, expected); \
free(answer); \
} while(0)
#define TEST_ARB_PROBE_FILT(fake_argc,fake_argv,filter,expected) do { \
TEST_RUN_ARB_PROBE(fake_argc,fake_argv); \
char *filtered = filter(answer); \
TEST_EXPECT_EQUAL(filtered, expected); \
free(filtered); \
free(answer); \
} while(0)
typedef const char *CCP;
void TEST_SLOW_match_geneprobe() {
// test here runs versus database ../UNIT_TESTER/run/TEST_gpt_src.arb
bool use_gene_ptserver = true;
{
const char *arguments[] = {
"prgnamefake",
"matchsequence=NNUCNN",
"matchacceptN=4",
"matchlimitN=5",
};
CCP expectd = " organism genename------- mis N_mis wmis pos gpos rev 'NNUCNN'\1"
"genome2\1" " genome2 gene3 0 4 2.6 2 1 0 .........-UU==GG-UUGAUC.\1"
"genome2\1" " genome2 joined1 0 4 2.6 2 1 0 .........-UU==GG-UUGAUCCUG\1"
"genome2\1" " genome2 gene1 0 4 2.6 2 2 0 ........A-UU==GG-U.\1"
"genome2\1" " genome2 intergene_19_65 0 4 2.7 31 12 0 GGUUACUGC-AU==GG-UGUUCGCCU\1"
"genome1\1" " genome1 intergene_17_65 0 4 2.7 31 14 0 GGUUACUGC-UA==GG-UGUUCGCCU\1"
"genome2\1" " genome2 intergene_19_65 0 4 2.7 38 19 0 GCAUUCGGU-GU==GC-CUAAGCACU\1"
"genome1\1" " genome1 intergene_17_65 0 4 2.7 38 21 0 GCUAUCGGU-GU==GC-CUAAGCCAU\1"
"genome2\1" " genome2 gene3 0 4 2.9 10 9 0 .UUUCGGUU-GA==..-\1"
"genome2\1" " genome2 intergene_19_65 0 4 3.1 56 37 0 AGCACUGCG-AG==AU-AUGUA.\1"
"genome1\1" " genome1 intergene_17_65 0 4 3.1 56 39 0 AGCCAUGCG-AG==AU-AUGUA.\1"
"genome1\1" " genome1 gene2 0 4 3.1 10 2 0 ........U-GA==CU-GC.\1"
"genome2\1" " genome2 gene2 0 4 3.1 10 4 0 ......GUU-GA==CU-GCCA.\1"
"genome1\1" " genome1 joined1 0 4 3.1 10 7 0 ...CUGGUU-GA==CU-GC.\1"
"genome2\1" " genome2 joined1 0 4 3.1 10 9 0 .UUUCGGUU-GA==CU-GCCA.\1";
TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd);
}
{
const char *arguments[] = {
"prgnamefake",
"matchsequence=NGGUUN",
"matchacceptN=2",
"matchlimitN=3",
};
CCP expectd = " organism genename------- mis N_mis wmis pos gpos rev 'NGGUUN'\1"
"genome1\1" " genome1 gene3 0 2 1.3 5 2 0 ........C-U====G-A.\1"
"genome1\1" " genome1 joined1 0 2 1.3 5 2 0 ........C-U====G-AUCCUGC.\1"
"genome2\1" " genome2 gene3 0 2 1.4 5 4 0 ......UUU-C====G-AUC.\1"
"genome2\1" " genome2 joined1 0 2 1.4 5 4 0 ......UUU-C====G-AUCCUGCCA\1"
"genome2\1" " genome2 intergene_19_65 0 2 1.8 21 2 0 ........G-A====A-CUGCAUUCG\1"
"genome1\1" " genome1 intergene_17_65 0 2 1.8 21 4 0 ......CAG-A====A-CUGCUAUCG\1";
TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd);
}
{
const char *arguments[] = {
"prgnamefake",
"matchsequence=UGAUCCU", // exists in data
};
CCP expectd = " organism genename mis N_mis wmis pos gpos rev 'UGAUCCU'\1"
"genome1\1" " genome1 gene2 0 0 0.0 9 1 0 .........-=======-GC.\1"
"genome2\1" " genome2 gene2 0 0 0.0 9 3 0 .......GU-=======-GCCA.\1"
"genome1\1" " genome1 joined1 0 0 0.0 9 6 0 ....CUGGU-=======-GC.\1"
"genome2\1" " genome2 joined1 0 0 0.0 9 8 0 ..UUUCGGU-=======-GCCA.\1";
TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd); // [fixed: now reports hits in 'joined1' (of both genomes)]
}
{
const char *arguments[] = {
"prgnamefake",
"matchsequence=GAUCCU",
};
CCP expectd = " organism genename mis N_mis wmis pos gpos rev 'GAUCCU'\1"
"genome1\1" " genome1 gene2 0 0 0.0 10 2 0 ........U-======-GC.\1"
"genome2\1" " genome2 gene2 0 0 0.0 10 4 0 ......GUU-======-GCCA.\1"
"genome1\1" " genome1 joined1 0 0 0.0 10 7 0 ...CUGGUU-======-GC.\1"
"genome2\1" " genome2 joined1 0 0 0.0 10 9 0 .UUUCGGUU-======-GCCA.\1";
TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd); // [fixed: now reports as much hits as previous test; expected cause probe is part of above probe]
}
{
const char *arguments[] = {
"prgnamefake",
"matchsequence=UUUCGG", // exists only in genome2
};
CCP expectd = " organism genename mis N_mis wmis pos gpos rev 'UUUCGG'\1"
"genome2\1" " genome2 gene3 0 0 0.0 2 1 0 .........-======-UUGAUC.\1"
"genome2\1" " genome2 joined1 0 0 0.0 2 1 0 .........-======-UUGAUCCUG\1"
"genome2\1" " genome2 gene1 0 0 0.0 2 2 0 ........A-======-U.\1";
TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd); // [fixed: now reports hit in genome2/gene1]
}
{
const char *arguments[] = {
"prgnamefake",
"matchsequence=AUCCUG",
};
CCP expectd = " organism genename mis N_mis wmis pos gpos rev 'AUCCUG'\1"
"genome1\1" " genome1 gene2 0 0 0.0 11 3 0 .......UG-======-C.\1"
"genome2\1" " genome2 gene2 0 0 0.0 11 5 0 .....GUUG-======-CCA.\1"
"genome1\1" " genome1 joined1 0 0 0.0 11 8 0 ..CUGGUUG-======-C.\1"
"genome2\1" " genome2 joined1 0 0 0.0 11 10 0 UUUCGGUUG-======-CCA.\1";
TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd); // [fixed: now reports hits in 'gene2' and 'joined1' of both genomes]
}
{
const char *arguments[] = {
"prgnamefake",
"matchsequence=UUGAUCCUGC",
};
CCP expectd = " organism genename mis N_mis wmis pos gpos rev 'UUGAUCCUGC'\1"
"genome2\1" " genome2 gene2 0 0 0.0 8 2 0 ........G-==========-CA.\1"
"genome1\1" " genome1 joined1 0 0 0.0 8 5 0 .....CUGG-==========-.\1"
"genome2\1" " genome2 joined1 0 0 0.0 8 7 0 ...UUUCGG-==========-CA.\1";
TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd); // [fixed: now reports hit in 'genome2/joined1']
}
}
void TEST_SLOW_match_probe() {
// test here runs versus database ../UNIT_TESTER/run/TEST_pt_src.arb
bool use_gene_ptserver = false;
{
const char *arguments[] = {
"prgnamefake",
"matchsequence=UAUCGGAGAGUUUGA",
};
CCP expected = " name---- fullname mis N_mis wmis pos ecoli rev 'UAUCGGAGAGUUUGA'\1"
"BcSSSS00\1" " BcSSSS00 0 0 0.0 3 2 0 .......UU-===============-UCAAGUCGA\1";
TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expected);
}
// ----------------------------------------------------------------------------
// match with old(=default) N-mismatch-behavior (accepting 1 N-match)
{
const char *arguments[] = {
"prgnamefake",
"matchsequence=CANCUCCUUUC", // contains 1 N
NULL // matchmismatches
};
CCP expectd0 = " name---- fullname mis N_mis wmis pos ecoli rev 'CANCUCCUUUC'\1"
"BcSSSS00\1" " BcSSSS00 0 1 0.9 176 162 0 CGGCUGGAU-==C========-U.\1"; // only N-mismatch accepted
CCP expectd1 = " name---- fullname mis N_mis wmis pos ecoli rev 'CANCUCCUUUC'\1"
"BcSSSS00\1" " BcSSSS00 0 1 0.9 176 162 0 CGGCUGGAU-==C========-U.\1"
"ClfPerfr\1" " ClfPerfr 1 1 2.0 176 162 0 AGAUUAAUA-=CC========-U.\1"
"PbcAcet2\1" " PbcAcet2 1 2 1.6 176 162 0 CGGCUGGAU-==C=======N-N.\1"
"PbrPropi\1" " PbrPropi 1 2 1.6 176 162 0 CGGCUGGAU-==C=======N-N.\1"
"Stsssola\1" " Stsssola 1 2 1.6 176 162 0 CGGCUGGAU-==C=======.-\1"
"DcdNodos\1" " DcdNodos 1 2 1.6 176 162 0 CGGUUGGAU-==C=======.-\1"
"VbrFurni\1" " VbrFurni 1 2 1.6 176 162 0 GCGCUGGAU-==C=======.-\1"
"VblVulni\1" " VblVulni 1 2 1.6 176 162 0 GCGCUGGAU-==C=======.-\1"
"VbhChole\1" " VbhChole 1 2 1.6 176 162 0 GCGCUGGAU-==C=======.-\1";
CCP expectd2 = " name---- fullname mis N_mis wmis pos ecoli rev 'CANCUCCUUUC'\1"
"BcSSSS00\1" " BcSSSS00 0 1 0.9 176 162 0 CGGCUGGAU-==C========-U.\1"
"ClfPerfr\1" " ClfPerfr 1 1 2.0 176 162 0 AGAUUAAUA-=CC========-U.\1"
"PbcAcet2\1" " PbcAcet2 1 2 1.6 176 162 0 CGGCUGGAU-==C=======N-N.\1"
"PbrPropi\1" " PbrPropi 1 2 1.6 176 162 0 CGGCUGGAU-==C=======N-N.\1"
"Stsssola\1" " Stsssola 1 2 1.6 176 162 0 CGGCUGGAU-==C=======.-\1"
"DcdNodos\1" " DcdNodos 1 2 1.6 176 162 0 CGGUUGGAU-==C=======.-\1"
"VbrFurni\1" " VbrFurni 1 2 1.6 176 162 0 GCGCUGGAU-==C=======.-\1"
"VblVulni\1" " VblVulni 1 2 1.6 176 162 0 GCGCUGGAU-==C=======.-\1"
"VbhChole\1" " VbhChole 1 2 1.6 176 162 0 GCGCUGGAU-==C=======.-\1"
"AclPleur\1" " AclPleur 2 2 2.7 176 162 0 CGGUUGGAU-==C======A.-\1"
"PtVVVulg\1" " PtVVVulg 2 2 2.7 176 162 0 CGGUUGGAU-==C======A.-\1"
"DlcTolu2\1" " DlcTolu2 2 3 2.3 176 162 0 CGGCUGGAU-==C======NN-N.\1"
"FrhhPhil\1" " FrhhPhil 2 3 2.3 176 162 0 CGGCUGGAU-==C======..-\1"
"HllHalod\1" " HllHalod 2 3 2.3 176 162 0 CGGCUGGAU-==C======..-\1"
"CPPParap\1" " CPPParap 2 3 2.3 177 163 0 CGGNUGGAU-==C======..-\1";
CCP expectd3 = " name---- fullname mis N_mis wmis pos ecoli rev 'CANCUCCUUUC'\1"
"BcSSSS00\1" " BcSSSS00 0 1 0.9 176 162 0 CGGCUGGAU-==C========-U.\1"
"ClfPerfr\1" " ClfPerfr 1 1 2.0 176 162 0 AGAUUAAUA-=CC========-U.\1"
"PbcAcet2\1" " PbcAcet2 1 2 1.6 176 162 0 CGGCUGGAU-==C=======N-N.\1"
"PbrPropi\1" " PbrPropi 1 2 1.6 176 162 0 CGGCUGGAU-==C=======N-N.\1"
"Stsssola\1" " Stsssola 1 2 1.6 176 162 0 CGGCUGGAU-==C=======.-\1"
"DcdNodos\1" " DcdNodos 1 2 1.6 176 162 0 CGGUUGGAU-==C=======.-\1"
"VbrFurni\1" " VbrFurni 1 2 1.6 176 162 0 GCGCUGGAU-==C=======.-\1"
"VblVulni\1" " VblVulni 1 2 1.6 176 162 0 GCGCUGGAU-==C=======.-\1"
"VbhChole\1" " VbhChole 1 2 1.6 176 162 0 GCGCUGGAU-==C=======.-\1"
"AclPleur\1" " AclPleur 2 2 2.7 176 162 0 CGGUUGGAU-==C======A.-\1"
"PtVVVulg\1" " PtVVVulg 2 2 2.7 176 162 0 CGGUUGGAU-==C======A.-\1"
"DlcTolu2\1" " DlcTolu2 2 3 2.3 176 162 0 CGGCUGGAU-==C======NN-N.\1"
"FrhhPhil\1" " FrhhPhil 2 3 2.3 176 162 0 CGGCUGGAU-==C======..-\1"
"HllHalod\1" " HllHalod 2 3 2.3 176 162 0 CGGCUGGAU-==C======..-\1"
"CPPParap\1" " CPPParap 2 3 2.3 177 163 0 CGGNUGGAU-==C======..-\1"
"VblVulni\1" " VblVulni 3 1 3.6 49 44 0 AGCACAGAG-a=A==uG====-UCGGGUGGC\1";
arguments[2] = "matchmismatches=0"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd0);
arguments[2] = "matchmismatches=1"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd1);
arguments[2] = "matchmismatches=2"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd2);
arguments[2] = "matchmismatches=3"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd3);
}
{
const char *arguments[] = {
"prgnamefake",
"matchsequence=UCACCUCCUUUC", // contains no N
NULL // matchmismatches
};
CCP expectd0 = " name---- fullname mis N_mis wmis pos ecoli rev 'UCACCUCCUUUC'\1"
"BcSSSS00\1" " BcSSSS00 0 0 0.0 175 161 0 GCGGCUGGA-============-U.\1"
"PbcAcet2\1" " PbcAcet2 0 1 0.7 175 161 0 GCGGCUGGA-===========N-N.\1"
"PbrPropi\1" " PbrPropi 0 1 0.7 175 161 0 GCGGCUGGA-===========N-N.\1"
"Stsssola\1" " Stsssola 0 1 0.7 175 161 0 GCGGCUGGA-===========.-\1"
"DcdNodos\1" " DcdNodos 0 1 0.7 175 161 0 GCGGUUGGA-===========.-\1"
"VbrFurni\1" " VbrFurni 0 1 0.7 175 161 0 GGCGCUGGA-===========.-\1"
"VblVulni\1" " VblVulni 0 1 0.7 175 161 0 GGCGCUGGA-===========.-\1"
"VbhChole\1" " VbhChole 0 1 0.7 175 161 0 GGCGCUGGA-===========.-\1";
CCP expectd1 = " name---- fullname mis N_mis wmis pos ecoli rev 'UCACCUCCUUUC'\1"
"BcSSSS00\1" " BcSSSS00 0 0 0.0 175 161 0 GCGGCUGGA-============-U.\1"
"PbcAcet2\1" " PbcAcet2 0 1 0.7 175 161 0 GCGGCUGGA-===========N-N.\1"
"PbrPropi\1" " PbrPropi 0 1 0.7 175 161 0 GCGGCUGGA-===========N-N.\1"
"Stsssola\1" " Stsssola 0 1 0.7 175 161 0 GCGGCUGGA-===========.-\1"
"DcdNodos\1" " DcdNodos 0 1 0.7 175 161 0 GCGGUUGGA-===========.-\1"
"VbrFurni\1" " VbrFurni 0 1 0.7 175 161 0 GGCGCUGGA-===========.-\1"
"VblVulni\1" " VblVulni 0 1 0.7 175 161 0 GGCGCUGGA-===========.-\1"
"VbhChole\1" " VbhChole 0 1 0.7 175 161 0 GGCGCUGGA-===========.-\1"
"AclPleur\1" " AclPleur 1 1 1.8 175 161 0 GCGGUUGGA-==========A.-\1"
"PtVVVulg\1" " PtVVVulg 1 1 1.8 175 161 0 GCGGUUGGA-==========A.-\1"
"DlcTolu2\1" " DlcTolu2 1 2 1.4 175 161 0 GCGGCUGGA-==========NN-N.\1"
"FrhhPhil\1" " FrhhPhil 1 2 1.4 175 161 0 GCGGCUGGA-==========..-\1"
"HllHalod\1" " HllHalod 1 2 1.4 175 161 0 GCGGCUGGA-==========..-\1"
"CPPParap\1" " CPPParap 1 2 1.4 176 162 0 GCGGNUGGA-==========..-\1";
CCP expectd2 = " name---- fullname mis N_mis wmis pos ecoli rev 'UCACCUCCUUUC'\1"
"BcSSSS00\1" " BcSSSS00 0 0 0.0 175 161 0 GCGGCUGGA-============-U.\1"
"PbcAcet2\1" " PbcAcet2 0 1 0.7 175 161 0 GCGGCUGGA-===========N-N.\1"
"PbrPropi\1" " PbrPropi 0 1 0.7 175 161 0 GCGGCUGGA-===========N-N.\1"
"Stsssola\1" " Stsssola 0 1 0.7 175 161 0 GCGGCUGGA-===========.-\1"
"DcdNodos\1" " DcdNodos 0 1 0.7 175 161 0 GCGGUUGGA-===========.-\1"
"VbrFurni\1" " VbrFurni 0 1 0.7 175 161 0 GGCGCUGGA-===========.-\1"
"VblVulni\1" " VblVulni 0 1 0.7 175 161 0 GGCGCUGGA-===========.-\1"
"VbhChole\1" " VbhChole 0 1 0.7 175 161 0 GGCGCUGGA-===========.-\1"
"AclPleur\1" " AclPleur 1 1 1.8 175 161 0 GCGGUUGGA-==========A.-\1"
"PtVVVulg\1" " PtVVVulg 1 1 1.8 175 161 0 GCGGUUGGA-==========A.-\1"
"DlcTolu2\1" " DlcTolu2 1 2 1.4 175 161 0 GCGGCUGGA-==========NN-N.\1"
"FrhhPhil\1" " FrhhPhil 1 2 1.4 175 161 0 GCGGCUGGA-==========..-\1"
"HllHalod\1" " HllHalod 1 2 1.4 175 161 0 GCGGCUGGA-==========..-\1"
"CPPParap\1" " CPPParap 1 2 1.4 176 162 0 GCGGNUGGA-==========..-\1"
"ClfPerfr\1" " ClfPerfr 2 0 2.2 175 161 0 AAGAUUAAU-A=C=========-U.\1"
"LgtLytic\1" " LgtLytic 2 3 2.1 175 161 0 GCGGCUGGA-=========N..-\1"
"PslFlave\1" " PslFlave 2 3 2.1 175 161 0 GCGGCUGGA-=========...-\1";
arguments[2] = "matchmismatches=0"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd0);
arguments[2] = "matchmismatches=1"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd1);
arguments[2] = "matchmismatches=2"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd2);
}
{
const char *arguments[] = {
"prgnamefake",
"matchsequence=UCACCUCCUUUC", // contains no N
NULL, // matchmismatches
"matchweighted=1", // use weighted mismatches
};
CCP expectd0 = " name---- fullname mis N_mis wmis pos ecoli rev 'UCACCUCCUUUC'\1"
"BcSSSS00\1" " BcSSSS00 0 0 0.0 175 161 0 GCGGCUGGA-============-U.\1"
"PbcAcet2\1" " PbcAcet2 0 1 0.2 175 161 0 GCGGCUGGA-===========N-N.\1"
"PbrPropi\1" " PbrPropi 0 1 0.2 175 161 0 GCGGCUGGA-===========N-N.\1"
"Stsssola\1" " Stsssola 0 1 0.2 175 161 0 GCGGCUGGA-===========.-\1"
"DcdNodos\1" " DcdNodos 0 1 0.2 175 161 0 GCGGUUGGA-===========.-\1"
"VbrFurni\1" " VbrFurni 0 1 0.2 175 161 0 GGCGCUGGA-===========.-\1"
"VblVulni\1" " VblVulni 0 1 0.2 175 161 0 GGCGCUGGA-===========.-\1"
"VbhChole\1" " VbhChole 0 1 0.2 175 161 0 GGCGCUGGA-===========.-\1";
CCP expectd1 = " name---- fullname mis N_mis wmis pos ecoli rev 'UCACCUCCUUUC'\1"
"BcSSSS00\1" " BcSSSS00 0 0 0.0 175 161 0 GCGGCUGGA-============-U.\1"
"PbcAcet2\1" " PbcAcet2 0 1 0.2 175 161 0 GCGGCUGGA-===========N-N.\1"
"PbrPropi\1" " PbrPropi 0 1 0.2 175 161 0 GCGGCUGGA-===========N-N.\1"
"Stsssola\1" " Stsssola 0 1 0.2 175 161 0 GCGGCUGGA-===========.-\1"
"DcdNodos\1" " DcdNodos 0 1 0.2 175 161 0 GCGGUUGGA-===========.-\1"
"VbrFurni\1" " VbrFurni 0 1 0.2 175 161 0 GGCGCUGGA-===========.-\1"
"VblVulni\1" " VblVulni 0 1 0.2 175 161 0 GGCGCUGGA-===========.-\1"
"VbhChole\1" " VbhChole 0 1 0.2 175 161 0 GGCGCUGGA-===========.-\1"
"DlcTolu2\1" " DlcTolu2 1 2 0.6 175 161 0 GCGGCUGGA-==========NN-N.\1"
"FrhhPhil\1" " FrhhPhil 1 2 0.6 175 161 0 GCGGCUGGA-==========..-\1"
"HllHalod\1" " HllHalod 1 2 0.6 175 161 0 GCGGCUGGA-==========..-\1"
"CPPParap\1" " CPPParap 1 2 0.6 176 162 0 GCGGNUGGA-==========..-\1"
"AclPleur\1" " AclPleur 1 1 0.9 175 161 0 GCGGUUGGA-==========A.-\1"
"PtVVVulg\1" " PtVVVulg 1 1 0.9 175 161 0 GCGGUUGGA-==========A.-\1"
"LgtLytic\1" " LgtLytic 2 3 1.3 175 161 0 GCGGCUGGA-=========N..-\1"
"PslFlave\1" " PslFlave 2 3 1.3 175 161 0 GCGGCUGGA-=========...-\1"
"ClfPerfr\1" " ClfPerfr 2 0 1.3 175 161 0 AAGAUUAAU-A=C=========-U.\1";
CCP expectd2 = " name---- fullname mis N_mis wmis pos ecoli rev 'UCACCUCCUUUC'\1"
"BcSSSS00\1" " BcSSSS00 0 0 0.0 175 161 0 GCGGCUGGA-============-U.\1"
"PbcAcet2\1" " PbcAcet2 0 1 0.2 175 161 0 GCGGCUGGA-===========N-N.\1"
"PbrPropi\1" " PbrPropi 0 1 0.2 175 161 0 GCGGCUGGA-===========N-N.\1"
"Stsssola\1" " Stsssola 0 1 0.2 175 161 0 GCGGCUGGA-===========.-\1"
"DcdNodos\1" " DcdNodos 0 1 0.2 175 161 0 GCGGUUGGA-===========.-\1"
"VbrFurni\1" " VbrFurni 0 1 0.2 175 161 0 GGCGCUGGA-===========.-\1"
"VblVulni\1" " VblVulni 0 1 0.2 175 161 0 GGCGCUGGA-===========.-\1"
"VbhChole\1" " VbhChole 0 1 0.2 175 161 0 GGCGCUGGA-===========.-\1"
"DlcTolu2\1" " DlcTolu2 1 2 0.6 175 161 0 GCGGCUGGA-==========NN-N.\1"
"FrhhPhil\1" " FrhhPhil 1 2 0.6 175 161 0 GCGGCUGGA-==========..-\1"
"HllHalod\1" " HllHalod 1 2 0.6 175 161 0 GCGGCUGGA-==========..-\1"
"CPPParap\1" " CPPParap 1 2 0.6 176 162 0 GCGGNUGGA-==========..-\1"
"AclPleur\1" " AclPleur 1 1 0.9 175 161 0 GCGGUUGGA-==========A.-\1"
"PtVVVulg\1" " PtVVVulg 1 1 0.9 175 161 0 GCGGUUGGA-==========A.-\1"
"LgtLytic\1" " LgtLytic 2 3 1.3 175 161 0 GCGGCUGGA-=========N..-\1"
"PslFlave\1" " PslFlave 2 3 1.3 175 161 0 GCGGCUGGA-=========...-\1"
"ClfPerfr\1" " ClfPerfr 2 0 1.3 175 161 0 AAGAUUAAU-A=C=========-U.\1"
"AclPleur\1" " AclPleur 5 0 2.4 50 45 0 GAAGGGAGC-=ug=u=u====G-CCGACGAGU\1"
"PtVVVulg\1" " PtVVVulg 5 0 2.4 50 45 0 GGAGAAAGC-=ug=u=u===g=-UGACGAGCG\1";
arguments[2] = "matchmismatches=0"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd0);
arguments[2] = "matchmismatches=1"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd1);
arguments[2] = "matchmismatches=2"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd2);
}
// ----------------------------------------------
// do not accept any N-matches as match
{
const char *arguments[] = {
"prgnamefake",
"matchsequence=CANCUCCUUUC", // contains 1 N
NULL, // matchmismatches
"matchacceptN=0",
};
CCP expectd0 = ""; // nothing matches
CCP expectd1 = " name---- fullname mis N_mis wmis pos ecoli rev 'CANCUCCUUUC'\1"
"BcSSSS00\1" " BcSSSS00 1 1 0.9 176 162 0 CGGCUGGAU-==C========-U.\1";
CCP expectd2 = " name---- fullname mis N_mis wmis pos ecoli rev 'CANCUCCUUUC'\1"
"BcSSSS00\1" " BcSSSS00 1 1 0.9 176 162 0 CGGCUGGAU-==C========-U.\1"
"ClfPerfr\1" " ClfPerfr 2 1 2.0 176 162 0 AGAUUAAUA-=CC========-U.\1"
"PbcAcet2\1" " PbcAcet2 2 2 1.6 176 162 0 CGGCUGGAU-==C=======N-N.\1"
"PbrPropi\1" " PbrPropi 2 2 1.6 176 162 0 CGGCUGGAU-==C=======N-N.\1"
"Stsssola\1" " Stsssola 2 2 1.6 176 162 0 CGGCUGGAU-==C=======.-\1"
"DcdNodos\1" " DcdNodos 2 2 1.6 176 162 0 CGGUUGGAU-==C=======.-\1"
"VbrFurni\1" " VbrFurni 2 2 1.6 176 162 0 GCGCUGGAU-==C=======.-\1"
"VblVulni\1" " VblVulni 2 2 1.6 176 162 0 GCGCUGGAU-==C=======.-\1"
"VbhChole\1" " VbhChole 2 2 1.6 176 162 0 GCGCUGGAU-==C=======.-\1";
arguments[2] = "matchmismatches=0"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd0);
arguments[2] = "matchmismatches=1"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd1);
arguments[2] = "matchmismatches=2"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd2);
}
{
const char *arguments[] = {
"prgnamefake",
"matchsequence=UUUCUUU", // contains no N
NULL, // matchmismatches
"matchacceptN=0",
};
CCP expectd0 = " name---- fullname mis N_mis wmis pos ecoli rev 'UUUCUUU'\1"
"AclPleur\1" " AclPleur 0 0 0.0 54 49 0 GGAGCUUGC-=======-GCCGACGAG\1";
CCP expectd1 = " name---- fullname mis N_mis wmis pos ecoli rev 'UUUCUUU'\1"
"AclPleur\1" " AclPleur 0 0 0.0 54 49 0 GGAGCUUGC-=======-GCCGACGAG\1"
"AclPleur\1" " AclPleur 1 0 0.6 50 45 0 GAAGGGAGC-==g====-CUUUGCCGA\1"
"PtVVVulg\1" " PtVVVulg 1 0 0.6 50 45 0 GGAGAAAGC-==g====-CUUGCUGAC\1"
"PtVVVulg\1" " PtVVVulg 1 0 0.6 54 49 0 AAAGCUUGC-======g-CUGACGAGC\1"
"ClfPerfr\1" " ClfPerfr 1 0 1.1 49 44 0 GCGAUGAAG-====C==-CGGGAAACG\1";
CCP expectd2 = " name---- fullname mis N_mis wmis pos ecoli rev 'UUUCUUU'\1"
"AclPleur\1" " AclPleur 0 0 0.0 54 49 0 GGAGCUUGC-=======-GCCGACGAG\1"
"AclPleur\1" " AclPleur 1 0 0.6 50 45 0 GAAGGGAGC-==g====-CUUUGCCGA\1"
"PtVVVulg\1" " PtVVVulg 1 0 0.6 50 45 0 GGAGAAAGC-==g====-CUUGCUGAC\1"
"PtVVVulg\1" " PtVVVulg 1 0 0.6 54 49 0 AAAGCUUGC-======g-CUGACGAGC\1"
"ClfPerfr\1" " ClfPerfr 1 0 1.1 49 44 0 GCGAUGAAG-====C==-CGGGAAACG\1"
"DlcTolu2\1" " DlcTolu2 2 0 1.2 47 42 0 AGAAAGGGA-==g===g-CAAUCCUGA\1"
"ClnCorin\1" " ClnCorin 2 0 1.7 48 43 0 AGCGAUGAA-g===C==-CGGGAAUGG\1"
"CPPParap\1" " CPPParap 2 0 1.7 48 43 0 AGCGAUGAA-g===C==-CGGGAACGG\1"
"HllHalod\1" " HllHalod 2 0 1.7 49 44 0 GAUGGAAGC-==g===C-CAGGCGUCG\1"
"DcdNodos\1" " DcdNodos 2 0 1.7 50 45 0 UUAUGUAGC-==g==A=-GUAACCUAG\1"
"VbhChole\1" " VbhChole 2 0 1.7 55 50 0 GAGGAACUU-g===C==-GGGUGGCGA\1"
"VbrFurni\1" " VbrFurni 2 0 1.7 62 57 0 UUCGGGGGA-===G==g-GGCGGCGAG\1"
"VblVulni\1" " VblVulni 2 0 1.7 62 57 0 AGAAACUUG-=====Cg-GGUGGCGAG\1"
"VbhChole\1" " VbhChole 2 0 1.7 62 57 0 AGGAACUUG-==C===g-GGUGGCGAG\1"
"ClnCorin\1" " ClnCorin 2 0 2.2 49 44 0 GCGAUGAAG-==C===C-GGGAAUGGA\1"
"CltBotul\1" " CltBotul 2 0 2.2 49 44 0 GCGAUGAAG-C=====C-GGAAGUGGA\1"
"CPPParap\1" " CPPParap 2 0 2.2 49 44 0 GCGAUGAAG-==C===C-GGGAACGGA\1"
"ClfPerfr\1" " ClfPerfr 2 0 2.2 50 45 0 CGAUGAAGU-==C===C-GGGAAACGG\1"
"VblVulni\1" " VblVulni 2 0 2.2 52 47 0 ACAGAGAAA-C==G===-CUCGGGUGG\1"
"BcSSSS00\1" " BcSSSS00 2 0 2.2 179 165 0 CUGGAUCAC-C=C====-CU.\1"
"ClfPerfr\1" " ClfPerfr 2 0 2.2 179 165 0 UUAAUACCC-C=C====-CU.\1"
"PbcAcet2\1" " PbcAcet2 2 0 2.2 179 165 0 CUGGAUCAC-C=C====-NN.\1"
"PbrPropi\1" " PbrPropi 2 0 2.2 179 165 0 CUGGAUCAC-C=C====-NN.\1"
"Stsssola\1" " Stsssola 2 0 2.2 179 165 0 CUGGAUCAC-C=C====-.\1"
"DcdNodos\1" " DcdNodos 2 0 2.2 179 165 0 UUGGAUCAC-C=C====-.\1"
"VbrFurni\1" " VbrFurni 2 0 2.2 179 165 0 CUGGAUCAC-C=C====-.\1"
"VblVulni\1" " VblVulni 2 0 2.2 179 165 0 CUGGAUCAC-C=C====-.\1"
"VbhChole\1" " VbhChole 2 0 2.2 179 165 0 CUGGAUCAC-C=C====-.\1"
"BcSSSS00\1" " BcSSSS00 2 2 1.4 183 169 0 AUCACCUCC-=====..-\1"
"ClfPerfr\1" " ClfPerfr 2 2 1.4 183 169 0 UACCCCUCC-=====..-\1";
arguments[2] = "matchmismatches=0"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd0);
arguments[2] = "matchmismatches=1"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd1);
arguments[2] = "matchmismatches=2"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd2);
}
{
const char *arguments[] = {
"prgnamefake",
"matchsequence=UCACCUCCUUUC", // contains no N
NULL, // matchmismatches
"matchacceptN=0",
};
CCP expectd0 = " name---- fullname mis N_mis wmis pos ecoli rev 'UCACCUCCUUUC'\1"
"BcSSSS00\1" " BcSSSS00 0 0 0.0 175 161 0 GCGGCUGGA-============-U.\1" "";
CCP expectd1 = " name---- fullname mis N_mis wmis pos ecoli rev 'UCACCUCCUUUC'\1"
"BcSSSS00\1" " BcSSSS00 0 0 0.0 175 161 0 GCGGCUGGA-============-U.\1"
"PbcAcet2\1" " PbcAcet2 1 1 0.7 175 161 0 GCGGCUGGA-===========N-N.\1"
"PbrPropi\1" " PbrPropi 1 1 0.7 175 161 0 GCGGCUGGA-===========N-N.\1"
"Stsssola\1" " Stsssola 1 1 0.7 175 161 0 GCGGCUGGA-===========.-\1"
"DcdNodos\1" " DcdNodos 1 1 0.7 175 161 0 GCGGUUGGA-===========.-\1"
"VbrFurni\1" " VbrFurni 1 1 0.7 175 161 0 GGCGCUGGA-===========.-\1"
"VblVulni\1" " VblVulni 1 1 0.7 175 161 0 GGCGCUGGA-===========.-\1"
"VbhChole\1" " VbhChole 1 1 0.7 175 161 0 GGCGCUGGA-===========.-\1";
CCP expectd2 = " name---- fullname mis N_mis wmis pos ecoli rev 'UCACCUCCUUUC'\1"
"BcSSSS00\1" " BcSSSS00 0 0 0.0 175 161 0 GCGGCUGGA-============-U.\1"
"PbcAcet2\1" " PbcAcet2 1 1 0.7 175 161 0 GCGGCUGGA-===========N-N.\1"
"PbrPropi\1" " PbrPropi 1 1 0.7 175 161 0 GCGGCUGGA-===========N-N.\1"
"Stsssola\1" " Stsssola 1 1 0.7 175 161 0 GCGGCUGGA-===========.-\1"
"DcdNodos\1" " DcdNodos 1 1 0.7 175 161 0 GCGGUUGGA-===========.-\1"
"VbrFurni\1" " VbrFurni 1 1 0.7 175 161 0 GGCGCUGGA-===========.-\1"
"VblVulni\1" " VblVulni 1 1 0.7 175 161 0 GGCGCUGGA-===========.-\1"
"VbhChole\1" " VbhChole 1 1 0.7 175 161 0 GGCGCUGGA-===========.-\1"
"ClfPerfr\1" " ClfPerfr 2 0 2.2 175 161 0 AAGAUUAAU-A=C=========-U.\1"
"AclPleur\1" " AclPleur 2 1 1.8 175 161 0 GCGGUUGGA-==========A.-\1"
"PtVVVulg\1" " PtVVVulg 2 1 1.8 175 161 0 GCGGUUGGA-==========A.-\1"
"DlcTolu2\1" " DlcTolu2 2 2 1.4 175 161 0 GCGGCUGGA-==========NN-N.\1"
"FrhhPhil\1" " FrhhPhil 2 2 1.4 175 161 0 GCGGCUGGA-==========..-\1"
"HllHalod\1" " HllHalod 2 2 1.4 175 161 0 GCGGCUGGA-==========..-\1"
"CPPParap\1" " CPPParap 2 2 1.4 176 162 0 GCGGNUGGA-==========..-\1";
arguments[2] = "matchmismatches=0"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd0);
arguments[2] = "matchmismatches=1"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd1);
arguments[2] = "matchmismatches=2"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd2);
}
{
const char *arguments[] = {
"prgnamefake",
"matchsequence=UCACCUCCUUUCU", // contains no N
NULL, // matchmismatches
"matchacceptN=0",
};
CCP expectd1 = " name---- fullname mis N_mis wmis pos ecoli rev 'UCACCUCCUUUCU'\1"
"BcSSSS00\1" " BcSSSS00 0 0 0.0 175 161 0 GCGGCUGGA-=============-.\1";
CCP expectd2 = " name---- fullname mis N_mis wmis pos ecoli rev 'UCACCUCCUUUCU'\1"
"BcSSSS00\1" " BcSSSS00 0 0 0.0 175 161 0 GCGGCUGGA-=============-.\1"
"ClfPerfr\1" " ClfPerfr 2 0 2.2 175 161 0 AAGAUUAAU-A=C==========-.\1"
"PbcAcet2\1" " PbcAcet2 2 2 1.4 175 161 0 GCGGCUGGA-===========NN-.\1"
"PbrPropi\1" " PbrPropi 2 2 1.4 175 161 0 GCGGCUGGA-===========NN-.\1"
"Stsssola\1" " Stsssola 2 2 1.4 175 161 0 GCGGCUGGA-===========..-\1"
"DcdNodos\1" " DcdNodos 2 2 1.4 175 161 0 GCGGUUGGA-===========..-\1"
"VbrFurni\1" " VbrFurni 2 2 1.4 175 161 0 GGCGCUGGA-===========..-\1"
"VblVulni\1" " VblVulni 2 2 1.4 175 161 0 GGCGCUGGA-===========..-\1"
"VbhChole\1" " VbhChole 2 2 1.4 175 161 0 GGCGCUGGA-===========..-\1";
CCP expectd3 = " name---- fullname mis N_mis wmis pos ecoli rev 'UCACCUCCUUUCU'\1"
"BcSSSS00\1" " BcSSSS00 0 0 0.0 175 161 0 GCGGCUGGA-=============-.\1"
"ClfPerfr\1" " ClfPerfr 2 0 2.2 175 161 0 AAGAUUAAU-A=C==========-.\1"
"PbcAcet2\1" " PbcAcet2 2 2 1.4 175 161 0 GCGGCUGGA-===========NN-.\1"
"PbrPropi\1" " PbrPropi 2 2 1.4 175 161 0 GCGGCUGGA-===========NN-.\1"
"Stsssola\1" " Stsssola 2 2 1.4 175 161 0 GCGGCUGGA-===========..-\1"
"DcdNodos\1" " DcdNodos 2 2 1.4 175 161 0 GCGGUUGGA-===========..-\1"
"VbrFurni\1" " VbrFurni 2 2 1.4 175 161 0 GGCGCUGGA-===========..-\1"
"VblVulni\1" " VblVulni 2 2 1.4 175 161 0 GGCGCUGGA-===========..-\1"
"VbhChole\1" " VbhChole 2 2 1.4 175 161 0 GGCGCUGGA-===========..-\1"
"AclPleur\1" " AclPleur 3 2 2.5 175 161 0 GCGGUUGGA-==========A..-\1"
"PtVVVulg\1" " PtVVVulg 3 2 2.5 175 161 0 GCGGUUGGA-==========A..-\1"
"DlcTolu2\1" " DlcTolu2 3 3 2.1 175 161 0 GCGGCUGGA-==========NNN-.\1"
"FrhhPhil\1" " FrhhPhil 3 3 2.1 175 161 0 GCGGCUGGA-==========...-\1"
"HllHalod\1" " HllHalod 3 3 2.1 175 161 0 GCGGCUGGA-==========...-\1"
"CPPParap\1" " CPPParap 3 3 2.1 176 162 0 GCGGNUGGA-==========...-\1";
CCP expectd4 = " name---- fullname mis N_mis wmis pos ecoli rev 'UCACCUCCUUUCU'\1"
"BcSSSS00\1" " BcSSSS00 0 0 0.0 175 161 0 GCGGCUGGA-=============-.\1"
"ClfPerfr\1" " ClfPerfr 2 0 2.2 175 161 0 AAGAUUAAU-A=C==========-.\1"
"PbcAcet2\1" " PbcAcet2 2 2 1.4 175 161 0 GCGGCUGGA-===========NN-.\1"
"PbrPropi\1" " PbrPropi 2 2 1.4 175 161 0 GCGGCUGGA-===========NN-.\1"
"Stsssola\1" " Stsssola 2 2 1.4 175 161 0 GCGGCUGGA-===========..-\1"
"DcdNodos\1" " DcdNodos 2 2 1.4 175 161 0 GCGGUUGGA-===========..-\1"
"VbrFurni\1" " VbrFurni 2 2 1.4 175 161 0 GGCGCUGGA-===========..-\1"
"VblVulni\1" " VblVulni 2 2 1.4 175 161 0 GGCGCUGGA-===========..-\1"
"VbhChole\1" " VbhChole 2 2 1.4 175 161 0 GGCGCUGGA-===========..-\1"
"AclPleur\1" " AclPleur 3 2 2.5 175 161 0 GCGGUUGGA-==========A..-\1"
"PtVVVulg\1" " PtVVVulg 3 2 2.5 175 161 0 GCGGUUGGA-==========A..-\1"
"DlcTolu2\1" " DlcTolu2 3 3 2.1 175 161 0 GCGGCUGGA-==========NNN-.\1"
"FrhhPhil\1" " FrhhPhil 3 3 2.1 175 161 0 GCGGCUGGA-==========...-\1"
"HllHalod\1" " HllHalod 3 3 2.1 175 161 0 GCGGCUGGA-==========...-\1"
"CPPParap\1" " CPPParap 3 3 2.1 176 162 0 GCGGNUGGA-==========...-\1"
"LgtLytic\1" " LgtLytic 4 4 2.8 175 161 0 GCGGCUGGA-=========N...-\1"
"PslFlave\1" " PslFlave 4 4 2.8 175 161 0 GCGGCUGGA-=========....-\1";
CCP expectd5 = " name---- fullname mis N_mis wmis pos ecoli rev 'UCACCUCCUUUCU'\1"
"BcSSSS00\1" " BcSSSS00 0 0 0.0 175 161 0 GCGGCUGGA-=============-.\1"
"ClfPerfr\1" " ClfPerfr 2 0 2.2 175 161 0 AAGAUUAAU-A=C==========-.\1"
"PbcAcet2\1" " PbcAcet2 2 2 1.4 175 161 0 GCGGCUGGA-===========NN-.\1"
"PbrPropi\1" " PbrPropi 2 2 1.4 175 161 0 GCGGCUGGA-===========NN-.\1"
"Stsssola\1" " Stsssola 2 2 1.4 175 161 0 GCGGCUGGA-===========..-\1"
"DcdNodos\1" " DcdNodos 2 2 1.4 175 161 0 GCGGUUGGA-===========..-\1"
"VbrFurni\1" " VbrFurni 2 2 1.4 175 161 0 GGCGCUGGA-===========..-\1"
"VblVulni\1" " VblVulni 2 2 1.4 175 161 0 GGCGCUGGA-===========..-\1"
"VbhChole\1" " VbhChole 2 2 1.4 175 161 0 GGCGCUGGA-===========..-\1"
"AclPleur\1" " AclPleur 3 2 2.5 175 161 0 GCGGUUGGA-==========A..-\1"
"PtVVVulg\1" " PtVVVulg 3 2 2.5 175 161 0 GCGGUUGGA-==========A..-\1"
"DlcTolu2\1" " DlcTolu2 3 3 2.1 175 161 0 GCGGCUGGA-==========NNN-.\1"
"FrhhPhil\1" " FrhhPhil 3 3 2.1 175 161 0 GCGGCUGGA-==========...-\1"
"HllHalod\1" " HllHalod 3 3 2.1 175 161 0 GCGGCUGGA-==========...-\1"
"CPPParap\1" " CPPParap 3 3 2.1 176 162 0 GCGGNUGGA-==========...-\1"
"LgtLytic\1" " LgtLytic 4 4 2.8 175 161 0 GCGGCUGGA-=========N...-\1"
"PslFlave\1" " PslFlave 4 4 2.8 175 161 0 GCGGCUGGA-=========....-\1"
"PtVVVulg\1" " PtVVVulg 5 0 2.6 50 45 0 GGAGAAAGC-=ug=u=u===g==-GACGAGCGG\1"
"AclPleur\1" " AclPleur 5 0 3.5 46 41 0 ACGGGAAGG-gag=u=G======-UUGCCGACG\1"
"PtVVVulg\1" " PtVVVulg 5 0 4.0 45 40 0 ...AGGAGA-Aag=u=G======-UGCUGACGA\1"
"VblVulni\1" " VblVulni 5 0 4.3 48 43 0 CAGCACAGA-ga=a==uG=====-CGGGUGGCG\1";
arguments[2] = "matchmismatches=1"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd1);
arguments[2] = "matchmismatches=2"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd2);
arguments[2] = "matchmismatches=3"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd3);
arguments[2] = "matchmismatches=4"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd4);
arguments[2] = "matchmismatches=5"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd5);
}
// ----------------------------------
// accept several N-matches
{
const char *arguments[] = {
"prgnamefake",
"matchsequence=CANCUCCUUNC", // contains 2 N
NULL, // matchmismatches
"matchacceptN=2",
"matchlimitN=4",
};
CCP expectd0 = " name---- fullname mis N_mis wmis pos ecoli rev 'CANCUCCUUNC'\1"
"BcSSSS00\1" " BcSSSS00 0 2 1.7 176 162 0 CGGCUGGAU-==C======U=-U.\1";
CCP expectd1 = " name---- fullname mis N_mis wmis pos ecoli rev 'CANCUCCUUNC'\1"
"BcSSSS00\1" " BcSSSS00 0 2 1.7 176 162 0 CGGCUGGAU-==C======U=-U.\1"
"ClfPerfr\1" " ClfPerfr 1 2 2.8 176 162 0 AGAUUAAUA-=CC======U=-U.\1"
"DlcTolu2\1" " DlcTolu2 1 3 2.4 176 162 0 CGGCUGGAU-==C=======N-N.\1"
"FrhhPhil\1" " FrhhPhil 1 3 2.4 176 162 0 CGGCUGGAU-==C======..-\1"
"HllHalod\1" " HllHalod 1 3 2.4 176 162 0 CGGCUGGAU-==C======..-\1"
"CPPParap\1" " CPPParap 1 3 2.4 177 163 0 CGGNUGGAU-==C======..-\1"
"PbcAcet2\1" " PbcAcet2 1 3 2.4 176 162 0 CGGCUGGAU-==C======UN-N.\1"
"PbrPropi\1" " PbrPropi 1 3 2.4 176 162 0 CGGCUGGAU-==C======UN-N.\1"
"Stsssola\1" " Stsssola 1 3 2.4 176 162 0 CGGCUGGAU-==C======U.-\1"
"DcdNodos\1" " DcdNodos 1 3 2.4 176 162 0 CGGUUGGAU-==C======U.-\1"
"VbrFurni\1" " VbrFurni 1 3 2.4 176 162 0 GCGCUGGAU-==C======U.-\1"
"VblVulni\1" " VblVulni 1 3 2.4 176 162 0 GCGCUGGAU-==C======U.-\1"
"VbhChole\1" " VbhChole 1 3 2.4 176 162 0 GCGCUGGAU-==C======U.-\1"
"AclPleur\1" " AclPleur 1 3 2.5 176 162 0 CGGUUGGAU-==C======A.-\1"
"PtVVVulg\1" " PtVVVulg 1 3 2.5 176 162 0 CGGUUGGAU-==C======A.-\1";
CCP expectd2 = " name---- fullname mis N_mis wmis pos ecoli rev 'CANCUCCUUNC'\1"
"BcSSSS00\1" " BcSSSS00 0 2 1.7 176 162 0 CGGCUGGAU-==C======U=-U.\1"
"ClfPerfr\1" " ClfPerfr 1 2 2.8 176 162 0 AGAUUAAUA-=CC======U=-U.\1"
"DlcTolu2\1" " DlcTolu2 1 3 2.4 176 162 0 CGGCUGGAU-==C=======N-N.\1"
"FrhhPhil\1" " FrhhPhil 1 3 2.4 176 162 0 CGGCUGGAU-==C======..-\1"
"HllHalod\1" " HllHalod 1 3 2.4 176 162 0 CGGCUGGAU-==C======..-\1"
"CPPParap\1" " CPPParap 1 3 2.4 177 163 0 CGGNUGGAU-==C======..-\1"
"PbcAcet2\1" " PbcAcet2 1 3 2.4 176 162 0 CGGCUGGAU-==C======UN-N.\1"
"PbrPropi\1" " PbrPropi 1 3 2.4 176 162 0 CGGCUGGAU-==C======UN-N.\1"
"Stsssola\1" " Stsssola 1 3 2.4 176 162 0 CGGCUGGAU-==C======U.-\1"
"DcdNodos\1" " DcdNodos 1 3 2.4 176 162 0 CGGUUGGAU-==C======U.-\1"
"VbrFurni\1" " VbrFurni 1 3 2.4 176 162 0 GCGCUGGAU-==C======U.-\1"
"VblVulni\1" " VblVulni 1 3 2.4 176 162 0 GCGCUGGAU-==C======U.-\1"
"VbhChole\1" " VbhChole 1 3 2.4 176 162 0 GCGCUGGAU-==C======U.-\1"
"AclPleur\1" " AclPleur 1 3 2.5 176 162 0 CGGUUGGAU-==C======A.-\1"
"PtVVVulg\1" " PtVVVulg 1 3 2.5 176 162 0 CGGUUGGAU-==C======A.-\1";
arguments[2] = "matchmismatches=0"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd0);
arguments[2] = "matchmismatches=1"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd1);
arguments[2] = "matchmismatches=2"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd2);
}
{
const char *arguments[] = {
"prgnamefake",
"matchsequence=GAGCGGUCAG", // similar to a region where dots occur in seqdata
NULL, // matchmismatches
"matchacceptN=0",
"matchlimitN=4",
};
CCP expectd0 = "";
CCP expectd1 = " name---- fullname mis N_mis wmis pos ecoli rev 'GAGCGGUCAG'\1"
"BcSSSS00\1" " BcSSSS00 1 0 1.1 25 21 0 GAUCAAGUC-======A===-AUGGGAGCU\1";
CCP expectd2 = " name---- fullname mis N_mis wmis pos ecoli rev 'GAGCGGUCAG'\1"
"BcSSSS00\1" " BcSSSS00 1 0 1.1 25 21 0 GAUCAAGUC-======A===-AUGGGAGCU\1"
"Bl0LLL00\1" " Bl0LLL00 2 0 2.2 25 21 0 GAUCAAGUC-======A=C=-ACGGGAGCU\1";
CCP expectd3 = " name---- fullname mis N_mis wmis pos ecoli rev 'GAGCGGUCAG'\1"
"BcSSSS00\1" " BcSSSS00 1 0 1.1 25 21 0 GAUCAAGUC-======A===-AUGGGAGCU\1"
"Bl0LLL00\1" " Bl0LLL00 2 0 2.2 25 21 0 GAUCAAGUC-======A=C=-ACGGGAGCU\1"
"VbrFurni\1" " VbrFurni 3 0 2.4 68 60 0 GGAUUUGUU-=g====CG==-CGGCGGACG\1"
"FrhhPhil\1" " FrhhPhil 3 0 2.8 82 70 0 ACGAGUGGC-=gA===C===-UUGGAAACG\1"
"ClfPerfr\1" " ClfPerfr 3 0 3.2 86 74 0 CGGCGGGAC-=g==CU====-AACCUGCGG\1"
"HllHalod\1" " HllHalod 3 0 3.6 25 21 0 GAUCAAGUC-======Aa=C-GAUGGAAGC\1"
"DlcTolu2\1" " DlcTolu2 3 0 3.6 95 83 0 GGACUGCCC-==Aa==A===-CUAAUACCG\1"
"FrhhPhil\1" " FrhhPhil 3 0 4.0 25 21 0 GAUCAAGUC-==A====a=C-AGGUCUUCG\1"
"AclPleur\1" " AclPleur 3 0 4.0 29 24 0 GAUCAAGUC-==A====a=C-GGGAAGGGA\1"
"ClnCorin\1" " ClnCorin 3 0 4.1 25 21 0 GAUCAAGUC-=====A=G=A-GUUCCUUCG\1"
"CltBotul\1" " CltBotul 3 0 4.1 25 21 0 .AUCAAGUC-=====A=G=A-GCUUCUUCG\1"
"CPPParap\1" " CPPParap 3 0 4.1 25 21 0 GAUCAAGUC-=====A=G=A-GUUCCUUCG\1"
"ClfPerfr\1" " ClfPerfr 3 0 4.1 25 21 0 GAUCAAGUC-=====A=G=A-GUUUCCUUC\1"
"DlcTolu2\1" " DlcTolu2 3 0 4.1 157 143 0 GUAGCCGUU-===GAA====-CGGCUGGAU\1"
"PslFlave\1" " PslFlave 3 3 2.4 25 21 0 GAUCAAGUC-=======...-<more>\1"
"PtVVVulg\1" " PtVVVulg 3 3 2.4 29 24 0 GAUCAAGUC-=======...-<more>\1";
arguments[2] = "matchmismatches=0"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd0);
arguments[2] = "matchmismatches=1"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd1);
arguments[2] = "matchmismatches=2"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd2);
arguments[2] = "matchmismatches=3"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd3);
}
{
const char *arguments[] = {
"prgnamefake",
"matchsequence=GAGCGGUCAGGAG", // as above, but continues behind '...'
NULL, // matchmismatches
"matchweighted=1", // use weighted mismatches
};
CCP expectd2 = "";
CCP expectd3 = " name---- fullname mis N_mis wmis pos ecoli rev 'GAGCGGUCAGGAG'\1"
"ClnCorin\1" " ClnCorin 6 0 3.4 77 66 0 AUGGAUUAG-Cg====A=g==CC-UUUCGAAAG\1"
"CltBotul\1" " CltBotul 6 0 3.4 77 66 0 GUGGAUUAG-Cg====A=g==CC-UUUCGAAAG\1"
"CPPParap\1" " CPPParap 6 0 3.4 77 66 0 ACGGAUUAG-Cg====A=g==CC-UUCCGAAAG\1"
"BcSSSS00\1" " BcSSSS00 3 0 3.4 25 21 0 GAUCAAGUC-======A===AU=-GGAGCUUGC\1";
CCP expectd4 = " name---- fullname mis N_mis wmis pos ecoli rev 'GAGCGGUCAGGAG'\1"
"ClnCorin\1" " ClnCorin 6 0 3.4 77 66 0 AUGGAUUAG-Cg====A=g==CC-UUUCGAAAG\1"
"CltBotul\1" " CltBotul 6 0 3.4 77 66 0 GUGGAUUAG-Cg====A=g==CC-UUUCGAAAG\1"
"CPPParap\1" " CPPParap 6 0 3.4 77 66 0 ACGGAUUAG-Cg====A=g==CC-UUCCGAAAG\1"
"BcSSSS00\1" " BcSSSS00 3 0 3.4 25 21 0 GAUCAAGUC-======A===AU=-GGAGCUUGC\1"
"ClfPerfr\1" " ClfPerfr 6 0 3.9 121 108 0 AUCAUAAUG-C====A=ug==gU-GAAGUCGUA\1"
"ClnCorin\1" " ClnCorin 6 0 3.9 122 109 0 CGCAUAAGA-C====A=ug==gU-GAAGUCGUA\1"
"CltBotul\1" " CltBotul 6 0 3.9 122 109 0 CUCAUAAGA-C====A=ug==gU-GAAGUCGUA\1"
"CPPParap\1" " CPPParap 6 0 3.9 122 109 0 GCAUAAGAU-C====A=ug==gU-AAGUCGUAA\1"
"DcdNodos\1" " DcdNodos 6 0 4.2 77 66 0 GUAACCUAG-Ug====A=g=AC=-UAUGGAAAC\1"
"PsAAAA00\1" " PsAAAA00 6 0 4.2 77 66 0 UGGAUUCAG-Cg====A=g=AC=-UCCGGAAAC\1"
"PslFlave\1" " PslFlave 6 0 4.2 77 66 0 CUGAUUCAG-Cg====A=g=AC=-UUUCGAAAG\1"
"FrhhPhil\1" " FrhhPhil 5 0 4.2 149 135 0 UAACAAUGG-U===C==ag===A-CCUGCGGCU\1"
"AclPleur\1" " AclPleur 4 0 4.3 29 24 0 GAUCAAGUC-==A====a=C=g=-AAGGGAGCU\1"
"PbcAcet2\1" " PbcAcet2 6 0 4.3 149 135 0 GUAACAAGG-U===C==ag==gA-ACCUGCGGC\1"
"PbrPropi\1" " PbrPropi 6 0 4.3 149 135 0 GUAACAAGG-U===C==ag==gA-ACCUGCGGC\1"
"Stsssola\1" " Stsssola 6 0 4.3 149 135 0 GUAACAAGG-U===C==ag==gA-ACCUGCGGC\1"
"LgtLytic\1" " LgtLytic 6 0 4.3 149 135 0 GUAACAAGG-U===C==ag==gA-ACCUGCGGC\1"
"PslFlave\1" " PslFlave 6 0 4.3 149 135 0 GUAACAAGG-U===C==ag==gA-ACCUGCGGC\1"
"HllHalod\1" " HllHalod 6 0 4.3 149 135 0 GUAACAAGG-U===C==ag==gA-ACCUGCGGC\1"
"VbrFurni\1" " VbrFurni 5 0 4.4 68 60 0 GGAUUUGUU-=g====CG==Cg=-CGGACGGAC\1"
"AclPleur\1" " AclPleur 6 0 4.4 35 30 0 GUCGAACGG-U=A===ga===gA-GCUUGCUUU\1"
"PslFlave\1" " PslFlave 6 6 4.4 25 21 0 GAUCAAGUC-=======......-<more>\1"
"PtVVVulg\1" " PtVVVulg 6 6 4.4 29 24 0 GAUCAAGUC-=======......-<more>\1"
"VbrFurni\1" " VbrFurni 6 0 4.4 149 135 0 GUAACAAGG-U====C=ag==gA-ACCUGGCGC\1"
"VblVulni\1" " VblVulni 6 0 4.4 149 135 0 GUAACAAGG-U====C=ag==gA-ACCUGGCGC\1"
"VbhChole\1" " VbhChole 6 0 4.4 149 135 0 GUAACAAGG-U====C=ag==gA-ACCUGGCGC\1";
arguments[2] = "matchmismatches=2"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd2);
arguments[2] = "matchmismatches=3"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd3);
arguments[2] = "matchmismatches=4"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd4);
}
// --------------------------
// truncate results
{
const char *arguments[] = {
"prgnamefake",
"matchsequence=CANCNCNNUNC", // contains 5N
NULL, // matchmismatches
"matchacceptN=5",
"matchlimitN=7",
"matchmaxresults=5",
};
CCP expectd0 = " name---- fullname mis N_mis wmis pos ecoli rev 'CANCNCNNUNC'\1"
"BcSSSS00\1" " BcSSSS00 0 5 4.2 176 162 0 CGGCUGGAU-==C=U=CU=U=-U.\1";
// many hits are truncated here:
CCP expectd1 = " name---- fullname mis N_mis wmis pos ecoli rev 'CANCNCNNUNC'\1"
"DlcTolu2\1" " DlcTolu2 1 6 4.9 176 162 0 CGGCUGGAU-==C=U=CU==N-N.\1"
"FrhhPhil\1" " FrhhPhil 1 6 4.9 176 162 0 CGGCUGGAU-==C=U=CU=..-\1"
"HllHalod\1" " HllHalod 1 6 4.9 176 162 0 CGGCUGGAU-==C=U=CU=..-\1"
"CPPParap\1" " CPPParap 1 6 4.9 177 163 0 CGGNUGGAU-==C=U=CU=..-\1"
"AclPleur\1" " AclPleur 1 6 5.0 176 162 0 CGGUUGGAU-==C=U=CU=A.-\1";
// many hits are truncated here:
CCP expectd2 = " name---- fullname mis N_mis wmis pos ecoli rev 'CANCNCNNUNC'\1"
"HllHalod\1" " HllHalod 2 5 5.1 45 40 0 AAACGAUGG-a=G=UuGC=U=-CAGGCGUCG\1"
"VblVulni\1" " VblVulni 2 5 5.4 49 44 0 AGCACAGAG-a=A=UuGU=U=-UCGGGUGGC\1"
"VbrFurni\1" " VbrFurni 2 5 5.7 40 35 0 CGGCAGCGA-==A=AuUGAA=-CUUCGGGGG\1"
"LgtLytic\1" " LgtLytic 2 5 6.2 101 89 0 GGGGAAACU-==AGCuAA=A=-CGCAUAAUC\1"
"ClfPerfr\1" " ClfPerfr 2 5 6.5 172 158 0 AGGAAGAUU-a=UaC=CC=C=-UUUCU.\1";
arguments[2] = "matchmismatches=0"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd0);
arguments[2] = "matchmismatches=1"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd1);
arguments[2] = "matchmismatches=2"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd2);
}
// -------------------------------------------------------------
// tests related to http://bugs.arb-home.de/ticket/410
{
const char *arguments[] = {
"prgnamefake",
"matchsequence=ACGGACUCCGGGAAACCGGGGCUAAUACC", // length=29
NULL, // matchmismatches
"matchacceptN=5",
"matchlimitN=7",
"matchmaxresults=10",
};
CCP expectd0 = " name---- fullname mis N_mis wmis pos ecoli rev 'ACGGACUCCGGGAAACCGGGGCUAAUACC'\1"
"BcSSSS00\1" " BcSSSS00 0 0 0.0 84 72 0 UAGCGGCGG-=============================-GGAUGGUGA\1"
"Bl0LLL00\1" " Bl0LLL00 0 0 0.0 84 72 0 CAGCGGCGG-=============================-GGAUGCUGA\1"
"AclPleur\1" " AclPleur 4 0 4.6 84 72 0 GAGUGGCGG-=======a========u=UA=========-GCGUAAUCA\1"
"PtVVVulg\1" " PtVVVulg 4 0 5.1 84 72 0 GAGCGGCGG-=======a=U======G=U==========-GCAUGACCA\1"
"DsssDesu\1" " DsssDesu 5 0 5.3 84 72 0 GAGUGGCGC-========u=C====Gu==A=========-GGAUACAGA\1"
"PsAAAA00\1" " PsAAAA00 5 0 5.3 84 72 0 CAGCGGCGG-======gu=C======G==C=========-GCAUACGCA\1";
arguments[2] = "matchmismatches=5"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd0);
}
{
const char *arguments[] = {
"prgnamefake",
"matchsequence=ACGGACUCCGGGAAACCGGGGCUAAUACCGGAUGGUGA", // length=38
NULL, // matchmismatches
"matchacceptN=5",
"matchlimitN=7",
"matchmaxresults=10",
};
CCP expectd0 = " name---- fullname mis N_mis wmis pos ecoli rev 'ACGGACUCCGGGAAACCGGGGCUAAUACCGGAUGGUGA'\1"
"BcSSSS00\1" " BcSSSS00 0 0 0.0 84 72 0 UAGCGGCGG-======================================-UGAUUGGGG\1"
"Bl0LLL00\1" " Bl0LLL00 1 0 1.5 84 72 0 CAGCGGCGG-==================================C===-UGAUUGGGG\1";
arguments[2] = "matchmismatches=18"; TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expectd0);
}
}
static char *extract_locations(const char *probe_design_result) {
const char *Target = strstr(probe_design_result, "\nTarget");
if (Target) {
const char *designed = strchr(Target+7, '\n');
if (designed) {
++designed;
GBS_strstruct result(300);
RegExpr reg_designed("^[A-Z]+"
"[[:space:]]+[0-9]+"
"[[:space:]]+([A-Z][=+-])" // subexpr #1 (loc+-=)
"[[:space:]]*([0-9]+)", // subexpr #2 (abs or locrel)
true);
while (designed) {
const char *eol = strchr(designed, '\n');
const RegMatch *match = reg_designed.match(designed); if (!match) break;
match = reg_designed.subexpr_match(1); if (!match) break;
std::string loc = match->extract(designed);
match = reg_designed.subexpr_match(2); if (!match) break;
std::string pos = match->extract(designed);
result.cat(loc.c_str());
result.cat(pos.c_str());
designed = eol ? eol+1 : NULL;
}
return result.release();
}
}
return strdup("can't extract");
}
inline const char *next_line(const char *this_line) {
const char *lf = strchr(this_line, '\n');
return (lf && lf[1] && strchr("ACGTU", lf[1])) ? lf+1 : NULL;
}
inline int count_hits(const char *design_result) {
const char *target = strstr(design_result, "\nTarget");
if (target) {
const char *hit = next_line(target+1);
int hits = 0;
while (hit) {
++hits;
hit = next_line(hit);
}
return hits;
}
return -1;
}
void TEST_SLOW_design_probe() {
// test here runs versus database ../UNIT_TESTER/run/TEST_pt_src.arb
bool use_gene_ptserver = false;
{
int hits_len_18;
{
const char *arguments[] = {
"prgnamefake",
"designnames=ClnCorin#CltBotul#CPPParap#ClfPerfr",
"designmintargets=100",
};
const char *expected =
"Probe design parameters:\n"
"Length of probe 18\n"
"Temperature [ 0.0 -400.0]\n"
"GC-content [30.0 - 80.0]\n"
"E.Coli position [any]\n"
"Max. nongroup hits 0\n"
"Min. group hits 100% (max. rejected coverage: 75%)\n"
"Target le apos ecol qual grps G+C temp Probe sequence | Decrease T by n*.3C -> probe matches n non group species\n"
"CGAAAGGAAGAUUAAUAC 18 A=94 82 77 4 33.3 48.0 GUAUUAAUCUUCCUUUCG | - - - - - - - - - - - - - - - - - - - -\n"
"GAAAGGAAGAUUAAUACC 18 A+ 1 83 77 4 33.3 48.0 GGUAUUAAUCUUCCUUUC | - - - - - - - - - - - - - - - - - - - -\n"
"UCAAGUCGAGCGAUGAAG 18 B=18 17 61 4 50.0 54.0 CUUCAUCGCUCGACUUGA | - - - - - - - - - - - - - - - 2 2 2 2 2\n"
"AUCAAGUCGAGCGAUGAA 18 B- 1 16 45 4 44.4 52.0 UUCAUCGCUCGACUUGAU | - - - - - - - - - - - 2 2 2 2 2 2 2 2 2\n";
TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expected);
hits_len_18 = count_hits(expected);
TEST_EXPECT_EQUAL(hits_len_18, 4);
// test extraction of positions:
{
char *positions = extract_locations(expected);
TEST_EXPECT_EQUAL(positions, "A=94A+1B=18B-1");
free(positions);
}
}
// same as above with probelength 17
int hits_len_17;
{
const char *arguments[] = {
"prgnamefake",
"designnames=ClnCorin#CltBotul#CPPParap#ClfPerfr",
"designmintargets=100",
"designprobelength=17",
};
const char *expected =
"Probe design parameters:\n"
"Length of probe 17\n"
"Temperature [ 0.0 -400.0]\n"
"GC-content [30.0 - 80.0]\n"
"E.Coli position [any]\n"
"Max. nongroup hits 0\n"
"Min. group hits 100% (max. rejected coverage: 75%)\n"
"Target le apos ecol qual grps G+C temp Probe sequence | Decrease T by n*.3C -> probe matches n non group species\n"
"CAAGUCGAGCGAUGAAG 17 A=19 18 65 4 52.9 52.0 CUUCAUCGCUCGACUUG | - - - - - - - - - - - - - - - - 2 2 2 2\n"
"UCAAGUCGAGCGAUGAA 17 A- 1 17 49 4 47.1 50.0 UUCAUCGCUCGACUUGA | - - - - - - - - - - - - 2 2 2 2 2 2 2 2\n"
"AUCAAGUCGAGCGAUGA 17 A- 2 16 33 4 47.1 50.0 UCAUCGCUCGACUUGAU | - - - - - - - - 2 2 2 2 2 2 2 2 2 2 2 4\n";
TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expected);
hits_len_17 = count_hits(expected);
TEST_EXPECT_EQUAL(hits_len_17, 3);
}
// same as above with probelength 16
int hits_len_16;
{
const char *arguments[] = {
"prgnamefake",
"designnames=ClnCorin#CltBotul#CPPParap#ClfPerfr",
"designmintargets=100",
"designprobelength=16",
};
const char *expected =
"Probe design parameters:\n"
"Length of probe 16\n"
"Temperature [ 0.0 -400.0]\n"
"GC-content [30.0 - 80.0]\n"
"E.Coli position [any]\n"
"Max. nongroup hits 0\n"
"Min. group hits 100% (max. rejected coverage: 75%)\n"
"Target le apos ecol qual grps G+C temp Probe sequence | Decrease T by n*.3C -> probe matches n non group species\n"
"CGAAAGGAAGAUUAAU 16 A=94 82 77 4 31.2 42.0 AUUAAUCUUCCUUUCG | - - - - - - - - - - - - - - - - - - - -\n"
"AAGGAAGAUUAAUACC 16 A+ 3 85 77 4 31.2 42.0 GGUAUUAAUCUUCCUU | - - - - - - - - - - - - - - - - - - - -\n"
"AAGUCGAGCGAUGAAG 16 B=20 19 69 4 50.0 48.0 CUUCAUCGCUCGACUU | - - - - - - - - - - - - - - - - - 2 2 2\n"
"CAAGUCGAGCGAUGAA 16 B- 1 18 49 4 50.0 48.0 UUCAUCGCUCGACUUG | - - - - - - - - - - - - 2 2 2 2 2 2 2 2\n"
"UCAAGUCGAGCGAUGA 16 B- 2 17 37 4 50.0 48.0 UCAUCGCUCGACUUGA | - - - - - - - - - 2 2 2 2 2 2 2 2 2 2 2\n"
"AUCAAGUCGAGCGAUG 16 B- 3 16 21 4 50.0 48.0 CAUCGCUCGACUUGAU | - - - - - 2 2 2 2 2 2 2 2 2 2 2 2 9 9 9\n";
TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expected);
hits_len_16 = count_hits(expected);
TEST_EXPECT_EQUAL(hits_len_16, 6);
}
// combine the 3 preceeding designs
int combined_hits;
{
const char *arguments[] = {
"prgnamefake",
"designnames=ClnCorin#CltBotul#CPPParap#ClfPerfr",
"designmintargets=100",
"designprobelength=16",
"designmaxprobelength=18",
};
const char *expected =
"Probe design parameters:\n"
"Length of probe 16-18\n"
"Temperature [ 0.0 -400.0]\n"
"GC-content [30.0 - 80.0]\n"
"E.Coli position [any]\n"
"Max. nongroup hits 0\n"
"Min. group hits 100% (max. rejected coverage: 75%)\n"
"Target le apos ecol qual grps G+C temp Probe sequence | Decrease T by n*.3C -> probe matches n non group species\n"
"CGAAAGGAAGAUUAAU 16 A=94 82 77 4 31.2 42.0 AUUAAUCUUCCUUUCG | - - - - - - - - - - - - - - - - - - - -\n"
"CGAAAGGAAGAUUAAUAC 18 A+ 0 82 77 4 33.3 48.0 GUAUUAAUCUUCCUUUCG | - - - - - - - - - - - - - - - - - - - -\n"
"GAAAGGAAGAUUAAUACC 18 A+ 1 83 77 4 33.3 48.0 GGUAUUAAUCUUCCUUUC | - - - - - - - - - - - - - - - - - - - -\n"
"AAGGAAGAUUAAUACC 16 A+ 3 85 77 4 31.2 42.0 GGUAUUAAUCUUCCUU | - - - - - - - - - - - - - - - - - - - -\n"
"AAGUCGAGCGAUGAAG 16 B=20 19 69 4 50.0 48.0 CUUCAUCGCUCGACUU | - - - - - - - - - - - - - - - - - 2 2 2\n"
"CAAGUCGAGCGAUGAAG 17 B- 1 18 65 4 52.9 52.0 CUUCAUCGCUCGACUUG | - - - - - - - - - - - - - - - - 2 2 2 2\n"
"UCAAGUCGAGCGAUGAAG 18 B- 2 17 61 4 50.0 54.0 CUUCAUCGCUCGACUUGA | - - - - - - - - - - - - - - - 2 2 2 2 2\n"
"UCAAGUCGAGCGAUGAA 17 B- 2 17 49 4 47.1 50.0 UUCAUCGCUCGACUUGA | - - - - - - - - - - - - 2 2 2 2 2 2 2 2\n"
"CAAGUCGAGCGAUGAA 16 B- 1 18 49 4 50.0 48.0 UUCAUCGCUCGACUUG | - - - - - - - - - - - - 2 2 2 2 2 2 2 2\n"
"AUCAAGUCGAGCGAUGAA 18 B- 3 16 45 4 44.4 52.0 UUCAUCGCUCGACUUGAU | - - - - - - - - - - - 2 2 2 2 2 2 2 2 2\n"
"UCAAGUCGAGCGAUGA 16 B- 2 17 37 4 50.0 48.0 UCAUCGCUCGACUUGA | - - - - - - - - - 2 2 2 2 2 2 2 2 2 2 2\n"
"AUCAAGUCGAGCGAUGA 17 B- 3 16 33 4 47.1 50.0 UCAUCGCUCGACUUGAU | - - - - - - - - 2 2 2 2 2 2 2 2 2 2 2 4\n"
"AUCAAGUCGAGCGAUG 16 B- 3 16 21 4 50.0 48.0 CAUCGCUCGACUUGAU | - - - - - 2 2 2 2 2 2 2 2 2 2 2 2 9 9 9\n";
TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expected);
combined_hits = count_hits(expected);
}
// check that combined design reports all probes reported by single designs:
TEST_EXPECT_EQUAL(combined_hits, hits_len_16+hits_len_17+hits_len_18);
}
// test vs bug (fails with [8988] .. [9175])
{
const char *arguments[] = {
"prgnamefake",
"designnames=VbhChole#VblVulni",
"designmintargets=50", // hit at least 1 of the 2 targets
"designmingc=60", "designmaxgc=75", // specific GC range
};
const char *expected =
"Probe design parameters:\n"
"Length of probe 18\n"
"Temperature [ 0.0 -400.0]\n"
"GC-content [60.0 - 75.0]\n"
"E.Coli position [any]\n"
"Max. nongroup hits 0 (lowest rejected nongroup hits: 1)\n"
"Min. group hits 50%\n"
"Target le apos ecol qual grps G+C temp Probe sequence | Decrease T by n*.3C -> probe matches n non group species\n"
"AGUCGAGCGGCAGCACAG 18 A=21 20 39 2 66.7 60.0 CUGUGCUGCCGCUCGACU | - - - - - - - - - - - - - - - - - - - -\n"
"GUCGAGCGGCAGCACAGA 18 A+ 1 21 39 2 66.7 60.0 UCUGUGCUGCCGCUCGAC | - - - - - - - - - - - - - - - - - - - -\n"
"UCGAGCGGCAGCACAGAG 18 A+ 2 21 39 2 66.7 60.0 CUCUGUGCUGCCGCUCGA | - - - - - - - - - - - - - - - - - - - -\n"
"AAGUCGAGCGGCAGCACA 18 A- 1 19 25 2 61.1 58.0 UGUGCUGCCGCUCGACUU | - - - - - - - - - - - - 1 1 1 1 1 1 1 1\n"
"CGAGCGGCAGCACAGAGA 18 A+ 3 21 20 1 66.7 60.0 UCUCUGUGCUGCCGCUCG | - - - - - - - - - - - - - - - - - - - -\n"
"CGAGCGGCAGCACAGAGG 18 A+ 3 21 20 1 72.2 62.0 CCUCUGUGCUGCCGCUCG | - - - - - - - - - - - - - - - - - - - -\n"
"GAGCGGCAGCACAGAGAA 18 A+ 4 21 20 1 61.1 58.0 UUCUCUGUGCUGCCGCUC | - - - - - - - - - - - - - - - - - - - -\n"
"GAGCGGCAGCACAGAGGA 18 A+ 4 21 20 1 66.7 60.0 UCCUCUGUGCUGCCGCUC | - - - - - - - - - - - - - - - - - - - -\n"
"AGCGGCAGCACAGAGGAA 18 A+ 5 21 20 1 61.1 58.0 UUCCUCUGUGCUGCCGCU | - - - - - - - - - - - - - - - - - - - -\n"
"GCGGCAGCACAGAGAAAC 18 A+ 6 22 20 1 61.1 58.0 GUUUCUCUGUGCUGCCGC | - - - - - - - - - - - - - - - - - - - -\n"
"GCGGCAGCACAGAGGAAC 18 A+ 6 22 20 1 66.7 60.0 GUUCCUCUGUGCUGCCGC | - - - - - - - - - - - - - - - - - - - -\n"
"CGGCAGCACAGAGGAACU 18 A+ 7 23 20 1 61.1 58.0 AGUUCCUCUGUGCUGCCG | - - - - - - - - - - - - - - - - - - - -\n"
"CUUGUUCCUUGGGUGGCG 18 B=52 47 20 1 61.1 58.0 CGCCACCCAAGGAACAAG | - - - - - - - - - - - - - - - - - - - -\n"
"CUUGUUUCUCGGGUGGCG 18 B+ 0 47 20 1 61.1 58.0 CGCCACCCGAGAAACAAG | - - - - - - - - - - - - - - - - - - - -\n"
"UGUUCCUUGGGUGGCGAG 18 B+ 2 49 20 1 61.1 58.0 CUCGCCACCCAAGGAACA | - - - - - - - - - - - - - - - - - - - -\n"
"UGUUUCUCGGGUGGCGAG 18 B+ 2 49 20 1 61.1 58.0 CUCGCCACCCGAGAAACA | - - - - - - - - - - - - - - - - - - - -\n"
"GUUCCUUGGGUGGCGAGC 18 B+ 3 50 20 1 66.7 60.0 GCUCGCCACCCAAGGAAC | - - - - - - - - - - - - - - - - - - - -\n"
"GUUUCUCGGGUGGCGAGC 18 B+ 3 50 20 1 66.7 60.0 GCUCGCCACCCGAGAAAC | - - - - - - - - - - - - - - - - - - - -\n"
"UUCCUUGGGUGGCGAGCG 18 B+10 57 20 1 66.7 60.0 CGCUCGCCACCCAAGGAA | - - - - - - - - - - - - - - - - - - - -\n"
"UUUCUCGGGUGGCGAGCG 18 B+10 57 20 1 66.7 60.0 CGCUCGCCACCCGAGAAA | - - - - - - - - - - - - - - - - - - - -\n"
"UCCUUGGGUGGCGAGCGG 18 B+11 58 20 1 72.2 62.0 CCGCUCGCCACCCAAGGA | - - - - - - - - - - - - - - - - - - - -\n"
"UUCUCGGGUGGCGAGCGG 18 B+11 58 20 1 72.2 62.0 CCGCUCGCCACCCGAGAA | - - - - - - - - - - - - - - - - - - - -\n"
"CAAGUCGAGCGGCAGCAC 18 A- 2 18 13 2 66.7 60.0 GUGCUGCCGCUCGACUUG | - - - - - - 1 1 1 1 1 1 1 1 1 1 1 1 1 1\n"
"UCAAGUCGAGCGGCAGCA 18 A- 3 17 3 2 61.1 58.0 UGCUGCCGCUCGACUUGA | - 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 3 3 3\n";
TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expected);
}
// design MANY probes to test location specifier
{
const char *arguments_loc[] = {
"prgnamefake",
// "designnames=Stsssola#Stsssola", // @@@ crashes the ptserver
"designnames=CPPParap#PsAAAA00",
"designmintargets=50", // hit at least 1 of the 2 targets
"designmingc=0", "designmaxgc=100", // allow all GCs
"designmintemp=30", "designmaxtemp=100", // allow all temp above 30 deg
"designmishit=7", // allow enough outgroup hits
"designprobelength=9",
};
const char *expected_loc =
"A=29B=51B+1C=99A+8D=112E=80E+2E+3E+4B-1A-5B-6B-5F=124F+1B-2E-7B+0C-5E+2E-1D-1E+6E+7E+8G=89C-2A-1H=61A-6C-1C-3E+3B+3B+4B+5E+5C+1E+4E+6E+7E+8C-7C-6E+5H+1H+2E-6C-4I=152I+1A-7";
TEST_ARB_PROBE_FILT(ARRAY_ELEMS(arguments_loc), arguments_loc, extract_locations, expected_loc);
}
// same as above
{
const char *arguments[] = {
"prgnamefake",
"designnames=CPPParap#PsAAAA00",
"designmintargets=50", // hit at least 1 of the 2 targets
"designmingc=0", "designmaxgc=100", // allow all GCs
"designmintemp=30", "designmaxtemp=100", // allow all temp above 30 deg
"designmishit=7", // allow enough outgroup hits
"designprobelength=9",
};
const char *expected =
"Probe design parameters:\n"
"Length of probe 9\n"
"Temperature [30.0 -100.0]\n"
"GC-content [ 0.0 -100.0]\n"
"E.Coli position [any]\n"
"Max. nongroup hits 7 (lowest rejected nongroup hits: 9)\n"
"Min. group hits 50%\n"
"Target le apos ecol qual grps G+C temp Probe | Decrease T by n*.3C -> probe matches n non group species\n"
"GAGCGGAUG 9 A= 29 24 20 1 66.7 30.0 CAUCCGCUC | - - - - - - - - - - - - - - - - - - - -\n"
"UGCUCCUGG 9 B= 51 46 20 1 66.7 30.0 CCAGGAGCA | - - - - - - - - - - - - - - - - - - - -\n"
"GCUCCUGGA 9 B+ 1 47 20 1 66.7 30.0 UCCAGGAGC | - - - - - - - - - - - - - - - - - - - -\n"
"CGGGCGCUA 9 C= 99 87 20 1 77.8 32.0 UAGCGCCCG | - - - - - - - - - - - - - - - - - - - -\n"
"GAAGGGAGC 9 A+ 8 32 20 1 66.7 30.0 GCUCCCUUC | 1 1 1 1 1 1 1 1 1 1 2 2 2 2 2 2 2 2 2 2\n"
"CGCAUACGC 9 D=112 100 20 1 66.7 30.0 GCGUAUGCG | 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2\n"
"CGGACGGGC 9 E= 80 69 20 1 88.9 34.0 GCCCGUCCG | 2 2 2 2 2 2 2 2 2 2 2 2 2 2 3 3 3 3 3 3\n"
"GGACGGGCC 9 E+ 2 70 20 1 88.9 34.0 GGCCCGUCC | 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3\n"
"GACGGGCCU 9 E+ 3 71 20 1 77.8 32.0 AGGCCCGUC | 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3\n"
"ACGGGCCUU 9 E+ 4 72 20 1 66.7 30.0 AAGGCCCGU | 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3\n"
"UCCUUCGGG 9 B- 1 45 20 1 66.7 30.0 CCCGAAGGA | 2 2 2 2 2 2 2 2 2 2 2 2 3 4 4 4 4 4 4 4\n"
"CGAGCGAUG 9 A- 5 21 20 1 66.7 30.0 CAUCGCUCG | 3 3 3 3 3 3 3 3 3 3 5 5 5 5 5 5 5 5 5 5\n"
"GGGAGCUUG 9 B- 6 40 20 1 66.7 30.0 CAAGCUCCC | 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 5 5\n"
"GGAGCUUGC 9 B- 5 41 20 1 66.7 30.0 GCAAGCUCC | 4 4 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5\n"
"GCGAUUGGG 9 F=124 111 20 1 66.7 30.0 CCCAAUCGC | 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 6 6\n"
"CGAUUGGGG 9 F+ 1 112 20 1 66.7 30.0 CCCCAAUCG | 3 3 3 3 3 3 6 6 6 6 6 6 6 6 6 6 6 6 6 6\n"
"GCUUGCUCC 9 B- 2 44 20 1 66.7 30.0 GGAGCAAGC | 4 4 4 4 4 4 5 5 5 5 5 5 5 7 7 7 7 8 8 8\n"
"UUAGCGGCG 9 E- 7 62 19 1 66.7 30.0 CGCCGCUAA | 4 4 4 4 4 4 4 4 5 5 5 5 5 5 5 6 6 6 11 11\n"
"CCUUCGGGA 9 B+ 0 46 18 1 66.7 30.0 UCCCGAAGG | 2 2 3 3 3 3 4 4 4 4 4 4 4 4 4 4 4 5 5 13\n"
"GGAAACGGG 9 C- 5 82 17 1 66.7 30.0 CCCGUUUCC | - - - - - - - - - - - - - - - - 3 3 3 3\n"
"GGACGGACG 9 E+ 2 70 17 1 77.8 32.0 CGUCCGUCC | 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 10 10 14 14\n"
"GCGGACGGG 9 E- 1 68 17 1 88.9 34.0 CCCGUCCGC | 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 13 13 13 13\n"
"CCGCAUACG 9 D- 1 99 16 1 66.7 30.0 CGUAUGCGG | 2 2 2 2 2 2 2 2 2 2 2 4 4 4 4 5 5 5 5 5\n"
"GGACGUCCG 9 E+ 6 74 14 1 77.8 32.0 CGGACGUCC | - - - - - - - - - - - - - 1 1 1 1 3 3 3\n"
"GACGUCCGG 9 E+ 7 75 14 1 77.8 32.0 CCGGACGUC | - - - - - - - - - - - - - 1 1 1 1 2 2 14\n"
"ACGUCCGGA 9 E+ 8 76 14 1 66.7 30.0 UCCGGACGU | - - - - - - - - - - - - - 1 1 11 11 12 12 17\n"
"CGUCCGGAA 9 G= 89 77 14 1 66.7 30.0 UUCCGGACG | - - - - - - - - - - - - - 1 1 1 1 2 2 2\n"
"AACGGGCGC 9 C- 2 85 14 1 77.8 32.0 GCGCCCGUU | - - - - - - - - - - - - - 1 1 1 1 1 1 2\n"
"CGAGCGGAU 9 A- 1 23 13 1 66.7 30.0 AUCCGCUCG | - - - - - - - - - - - - 3 3 3 3 3 3 3 3\n"
"UUCAGCGGC 9 H= 61 56 13 1 66.7 30.0 GCCGCUGAA | 1 1 1 1 1 1 2 2 2 2 2 2 3 4 4 4 4 4 7 7\n"
"UCGAGCGGA 9 A- 6 21 13 1 66.7 30.0 UCCGCUCGA | 3 3 3 3 3 3 3 3 3 3 3 3 8 8 8 8 8 8 8 8\n"
"ACGGGCGCU 9 C- 1 86 12 1 77.8 32.0 AGCGCCCGU | - - - - - - - - - - - 1 1 1 1 1 1 2 2 2\n"
"AAACGGGCG 9 C- 3 84 9 1 66.7 30.0 CGCCCGUUU | - - - - - - - - 1 1 1 1 1 1 1 1 1 1 1 1\n"
"GACGGACGU 9 E+ 3 71 9 1 66.7 30.0 ACGUCCGUC | 2 2 2 2 2 2 2 2 13 13 13 13 13 13 13 14 14 14 14 14\n"
"UCGGGAACG 9 B+ 3 49 7 1 66.7 30.0 CGUUCCCGA | - - - - - - 1 1 1 1 1 1 1 1 1 1 1 1 1 1\n"
"CGGGAACGG 9 B+ 4 50 7 1 77.8 32.0 CCGUUCCCG | - - - - - - 1 1 1 1 1 1 1 1 1 1 1 1 1 1\n"
"GGGAACGGA 9 B+ 5 51 7 1 66.7 30.0 UCCGUUCCC | - - - - - - 1 1 1 1 1 1 1 1 1 1 1 1 1 1\n"
"CGGACGUCC 9 E+ 5 73 7 1 77.8 32.0 GGACGUCCG | - - - - - - 1 1 1 1 1 1 1 3 3 3 3 12 12 12\n"
"GGGCGCUAA 9 C+ 1 88 7 1 66.7 30.0 UUAGCGCCC | - - - - - - 1 1 1 1 1 1 1 1 1 1 1 1 1 1\n"
"ACGGACGUC 9 E+ 4 72 7 1 66.7 30.0 GACGUCCGU | - - - - - - 2 2 3 3 3 4 4 4 4 5 5 5 5 13\n"
"GGGCCUUCC 9 E+ 6 74 7 1 77.8 32.0 GGAAGGCCC | - - - - - - 2 2 2 2 2 3 3 3 3 3 3 3 3 4\n"
"GGCCUUCCG 9 E+ 7 75 7 1 77.8 32.0 CGGAAGGCC | - - - - - - 2 2 2 2 2 3 3 3 3 3 3 3 3 3\n"
"GCCUUCCGA 9 E+ 8 76 7 1 66.7 30.0 UCGGAAGGC | - - - - - - 2 2 2 2 2 3 3 3 3 3 3 3 3 3\n"
"CCGGAAACG 9 C- 7 80 7 1 66.7 30.0 CGUUUCCGG | - - - - - - 2 2 2 2 2 2 2 6 7 9 9 10 10 10\n"
"CGGAAACGG 9 C- 6 81 7 1 66.7 30.0 CCGUUUCCG | - - - - - - 2 2 4 4 4 4 4 4 5 5 6 6 6 6\n"
"CGGGCCUUC 9 E+ 5 73 7 1 77.8 32.0 GAAGGCCCG | 1 1 1 1 1 1 3 3 3 3 3 3 3 3 3 3 3 3 3 3\n"
"UCAGCGGCG 9 H+ 1 57 7 1 77.8 32.0 CGCCGCUGA | 2 2 2 2 2 2 6 6 6 6 6 6 6 6 6 6 7 7 7 7\n"
"CAGCGGCGG 9 H+ 2 58 7 1 88.9 34.0 CCGCCGCUG | 2 2 2 2 2 2 6 6 6 6 6 6 6 7 12 12 12 12 12 12\n"
"UAGCGGCGG 9 E- 6 63 7 1 77.8 32.0 CCGCCGCUA | 4 4 4 4 4 4 10 10 10 10 10 10 12 14 14 14 14 14 14 14\n"
"GAAACGGGC 9 C- 4 83 5 1 66.7 30.0 GCCCGUUUC | - - - - 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1\n"
"GCCGUAGGA 9 I=152 138 3 1 66.7 30.0 UCCUACGGC | 1 1 8 8 8 8 8 8 8 8 8 8 9 9 9 9 9 9 12 12\n"
"CCGUAGGAG 9 I+ 1 139 3 1 66.7 30.0 CUCCUACGG | 1 1 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 11 11\n"
"GUCGAGCGA 9 A- 7 21 3 1 66.7 30.0 UCGCUCGAC | 3 3 11 11 11 11 11 11 11 11 11 11 11 11 11 12 12 12 12 14\n";
TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expected);
}
// same as above (with probelen == 8)
{
const char *arguments[] = {
"prgnamefake",
"designnames=CPPParap#PsAAAA00",
"designmintargets=50", // hit at least 1 of the 2 targets
"designmingc=0", "designmaxgc=100", // allow all GCs
"designmintemp=30", "designmaxtemp=100", // allow all temp above 30 deg
// "designmishit=7",
"designmishit=15", // @@@ reports more results than with 7 mishits, but no mishits reported below!
"designprobelength=8",
};
const char *expected =
"Probe design parameters:\n"
"Length of probe 8\n"
"Temperature [30.0 -100.0]\n"
"GC-content [ 0.0 -100.0]\n"
"E.Coli position [any]\n"
"Max. nongroup hits 15\n"
"Min. group hits 50%\n"
"Target le apos ecol qual grps G+C temp Probe | Decrease T by n*.3C -> probe matches n non group species\n"
"GGCGGACG 8 A=78 67 39 2 87.5 30.0 CGUCCGCC | 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13\n"
"GCGGACGG 8 A+ 1 68 39 2 87.5 30.0 CCGUCCGC | 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13\n"
"AGCGGCGG 8 A- 3 64 39 2 87.5 30.0 CCGCCGCU | 11 11 11 11 11 11 11 14 14 14 14 14 14 14 14 14 14 14 14 14\n"
"GCGGCGGA 8 A- 2 65 39 2 87.5 30.0 UCCGCCGC | 10 10 11 11 11 11 11 14 14 14 14 14 14 14 14 14 14 14 14 14\n"
"CGGCGGAC 8 A- 1 66 39 2 87.5 30.0 GUCCGCCG | 10 10 10 10 10 10 10 13 13 13 13 13 13 13 14 14 14 14 14 14\n"
"CGGACGGG 8 A+ 2 69 20 1 87.5 30.0 CCCGUCCG | 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2\n"
"GGACGGGC 8 A+ 4 70 20 1 87.5 30.0 GCCCGUCC | 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3\n"
"GACGGGCC 8 A+ 5 71 20 1 87.5 30.0 GGCCCGUC | 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3\n"
#if defined(ARB_64)
"ACGGGCGC 8 B=98 86 13 1 87.5 30.0 GCGCCCGU | - - - - - - - - - - - - 1 1 1 1 1 1 1 1\n"
"CGGGCGCU 8 B+ 1 87 13 1 87.5 30.0 AGCGCCCG | - - - - - - - - - - - - 1 1 1 1 1 1 1 1\n"
"CAGCGGCG 8 C=63 58 8 1 87.5 30.0 CGCCGCUG | 2 2 2 2 2 2 2 6 6 6 6 6 6 6 8 8 8 8 8 8\n";
#else // !defined(ARB_64)
// @@@ 32bit version differs (possibly numeric issues?)
"ACGGGCGC 8 B=98 86 13 1 87.5 30.0 GCGCCCGU | - - - - - - - - - - - - 1 1 1 1 1 1 1 2\n"
"CGGGCGCU 8 B+ 1 87 13 1 87.5 30.0 AGCGCCCG | - - - - - - - - - - - - 1 1 1 1 1 1 1 2\n"
"CAGCGGCG 8 C=63 58 8 1 87.5 30.0 CGCCGCUG | 2 2 2 2 2 2 2 6 6 6 6 6 6 6 8 8 8 8 8 10\n";
#endif
TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expected);
}
// same as above (but restricting ecoli-range)
{
const char *arguments[] = {
"prgnamefake",
"designnames=CPPParap#PsAAAA00",
"designmintargets=50", // hit at least 1 of the 2 targets
"designmingc=0", "designmaxgc=100", // allow all GCs
"designmintemp=30", "designmaxtemp=100", // allow all temp above 30 deg
"designmishit=15",
"designprobelength=8",
"designminpos=65", "designmaxpos=69", // restrict ecoli-range
};
const char *expected =
"Probe design parameters:\n"
"Length of probe 8\n"
"Temperature [30.0 -100.0]\n"
"GC-content [ 0.0 -100.0]\n"
"E.Coli position [ 65 - 69]\n"
"Max. nongroup hits 15\n"
"Min. group hits 50%\n"
"Target le apos ecol qual grps G+C temp Probe | Decrease T by n*.3C -> probe matches n non group species\n"
"GGCGGACG 8 A=78 67 39 2 87.5 30.0 CGUCCGCC | 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13\n"
"GCGGACGG 8 A+ 1 68 39 2 87.5 30.0 CCGUCCGC | 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13\n"
"GCGGCGGA 8 A- 2 65 39 2 87.5 30.0 UCCGCCGC | 10 10 11 11 11 11 11 14 14 14 14 14 14 14 14 14 14 14 14 14\n"
"CGGCGGAC 8 A- 1 66 39 2 87.5 30.0 GUCCGCCG | 10 10 10 10 10 10 10 13 13 13 13 13 13 13 14 14 14 14 14 14\n"
"CGGACGGG 8 A+ 2 69 20 1 87.5 30.0 CCCGUCCG | 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2\n";
TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expected);
}
{
const char *arguments[] = {
"prgnamefake",
"designnames=ClnCorin#CPPParap#ClfPerfr",
"designprobelength=16",
"designmintargets=100",
"designmishit=2",
};
const char *expected =
"Probe design parameters:\n"
"Length of probe 16\n"
"Temperature [ 0.0 -400.0]\n"
"GC-content [30.0 - 80.0]\n"
"E.Coli position [any]\n"
"Max. nongroup hits 2 (lowest rejected nongroup hits: 6)\n"
"Min. group hits 100% (max. rejected coverage: 67%)\n"
"Target le apos ecol qual grps G+C temp Probe sequence | Decrease T by n*.3C -> probe matches n non group species\n"
"CGAAAGGAAGAUUAAU 16 A=94 82 58 3 31.2 42.0 AUUAAUCUUCCUUUCG | 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1\n"
"AAGGAAGAUUAAUACC 16 A+ 3 85 58 3 31.2 42.0 GGUAUUAAUCUUCCUU | 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1\n"
"AAGUCGAGCGAUGAAG 16 B=20 19 52 3 50.0 48.0 CUUCAUCGCUCGACUU | 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 3 3 3\n"
"CAAGUCGAGCGAUGAA 16 B- 1 18 37 3 50.0 48.0 UUCAUCGCUCGACUUG | 1 1 1 1 1 1 1 1 1 1 1 1 3 3 3 3 3 3 3 3\n"
"GUCGAGCGAUGAAGUU 16 B+ 2 21 31 3 50.0 48.0 AACUUCAUCGCUCGAC | - - - - - - - - - - 1 1 1 1 1 1 1 1 1 1\n"
"UCAAGUCGAGCGAUGA 16 B- 2 17 28 3 50.0 48.0 UCAUCGCUCGACUUGA | 1 1 1 1 1 1 1 1 1 3 3 3 3 3 3 3 3 3 3 3\n"
"AGUCGAGCGAUGAAGU 16 B+ 1 20 19 3 50.0 48.0 ACUUCAUCGCUCGACU | - - - - - - 1 1 1 1 1 1 1 1 1 1 1 1 1 1\n"
"AUCAAGUCGAGCGAUG 16 B- 3 16 16 3 50.0 48.0 CAUCGCUCGACUUGAU | 1 1 1 1 1 3 3 3 3 3 3 3 3 3 3 3 3 10 10 10\n"
"GAUCAAGUCGAGCGAU 16 B- 4 15 4 3 50.0 48.0 AUCGCUCGACUUGAUC | - 2 2 2 3 3 3 3 10 10 10 10 10 10 10 10 10 10 10 10\n"
"UGAUCAAGUCGAGCGA 16 B- 5 14 4 3 50.0 48.0 UCGCUCGACUUGAUCA | - 9 9 9 9 9 9 9 10 10 10 10 10 10 10 10 10 10 10 10\n";
TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expected);
}
// test same design as above, but add 2 "unknown species" each of which is missing one of the previously designed probes
{
const char *arguments[] = {
"prgnamefake",
"designnames=ClnCorin#Unknown1#CPPParap#ClfPerfr#Unknown2",
"designprobelength=16",
"designmintargets=100",
"designmishit=2",
// pass sequences for the unknown species
"designsequence=---CGAAAGGAAGAUUAAU------------------AAGUCGAGCGAUGAAG-CAAGUCGAGCGAUGAA-GUCGAGCGAUGAAGUU-UCAAGUCGAGCGAUGA-AGUCGAGCGAUGAAGU-AUCAAGUCGAGCGAUG-GAUCAAGUCGAGCGAU-UGAUCAAGUCGAGCGA",
"designsequence=---CGAAAGGAAGAUUAAU-AAGGAAGAUUAAUACC-AAGUCGAGCGAUGAAG-CAAGUCGAGCGAUGAA-GUCGAGCGAUGAAGUU-UCAAGUCGAGCGAUGA-AGUCGAGCGAUGAAGU-AUCAAGUCGAGCGAUG------------------UGAUCAAGUCGAGCGA",
};
const char *expected =
"Probe design parameters:\n"
"Length of probe 16\n"
"Temperature [ 0.0 -400.0]\n"
"GC-content [30.0 - 80.0]\n"
"E.Coli position [any]\n"
"Max. nongroup hits 2\n"
"Min. group hits 100% (max. rejected coverage: 80%)\n"
"Target le apos ecol qual grps G+C temp Probe sequence | Decrease T by n*.3C -> probe matches n non group species\n"
"CGAAAGGAAGAUUAAU 16 A=94 82 96 5 31.2 42.0 AUUAAUCUUCCUUUCG | 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1\n"
// AAGGAAGAUUAAUACC is not designed here
"AAGUCGAGCGAUGAAG 16 B=20 19 86 5 50.0 48.0 CUUCAUCGCUCGACUU | 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 3 3 3\n"
"CAAGUCGAGCGAUGAA 16 B- 1 18 61 5 50.0 48.0 UUCAUCGCUCGACUUG | 1 1 1 1 1 1 1 1 1 1 1 1 3 3 3 3 3 3 3 3\n"
"GUCGAGCGAUGAAGUU 16 B+ 2 21 51 5 50.0 48.0 AACUUCAUCGCUCGAC | - - - - - - - - - - 1 1 1 1 1 1 1 1 1 1\n"
"UCAAGUCGAGCGAUGA 16 B- 2 17 46 5 50.0 48.0 UCAUCGCUCGACUUGA | 1 1 1 1 1 1 1 1 1 3 3 3 3 3 3 3 3 3 3 3\n"
"AGUCGAGCGAUGAAGU 16 B+ 1 20 31 5 50.0 48.0 ACUUCAUCGCUCGACU | - - - - - - 1 1 1 1 1 1 1 1 1 1 1 1 1 1\n"
"AUCAAGUCGAGCGAUG 16 B- 3 16 26 5 50.0 48.0 CAUCGCUCGACUUGAU | 1 1 1 1 1 3 3 3 3 3 3 3 3 3 3 3 3 10 10 10\n"
// GAUCAAGUCGAGCGAU is not designed here
"UGAUCAAGUCGAGCGA 16 B- 5 14 6 5 50.0 48.0 UCGCUCGACUUGAUCA | - 9 9 9 9 9 9 9 10 10 10 10 10 10 10 10 10 10 10 10\n";
TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expected);
}
{
const char *arguments[] = {
"prgnamefake",
"designnames=VbrFurni",
"designprobelength=8",
"designmingc=80",
"designmaxgc=100",
};
const char *expected =
"Probe design parameters:\n"
"Length of probe 8\n"
"Temperature [ 0.0 -400.0]\n"
"GC-content [80.0 -100.0]\n"
"E.Coli position [any]\n"
"Max. nongroup hits 0 (lowest rejected nongroup hits: 2)\n"
"Min. group hits 50%\n"
"Target le apos ecol qual grps G+C temp Probe | Decrease T by n*.3C -> probe matches n non group species\n"
#if defined(ARB_64)
"CGGCAGCG 8 A=28 23 20 1 87.5 30.0 CGCUGCCG | - - - - - - - - - - - - - - - - - - - -\n"
#else // !defined(ARB_64)
"CGGCAGCG 8 A=28 23 20 1 87.5 30.0 CGCUGCCG | - - - - - - - - - - - - - - - - - - - 3\n"
#endif
"UGGGCGGC 8 B=67 60 8 1 87.5 30.0 GCCGCCCA | - - - - - - - 1 1 1 1 1 1 1 1 1 1 1 1 1\n"
#if defined(ARB_64)
"CGGCGAGC 8 B+ 4 60 8 1 87.5 30.0 GCUCGCCG | - - - - - - - 2 2 2 2 2 2 2 4 4 4 4 4 4\n"
#else // !defined(ARB_64)
"CGGCGAGC 8 B+ 4 60 8 1 87.5 30.0 GCUCGCCG | - - - - - - - 2 2 2 2 2 2 2 4 4 4 4 4 5\n"
#endif
"GGGCGGCG 8 B+ 1 60 8 1 100.0 32.0 CGCCGCCC | - - - - - - - 3 3 3 3 3 3 3 3 3 3 3 3 3\n"
"GGCGGCGA 8 B+ 2 60 8 1 87.5 30.0 UCGCCGCC | - - - - - - - 3 3 3 3 3 3 3 3 3 3 3 3 3\n"
"GCGGCGAG 8 B+ 3 60 3 1 87.5 30.0 CUCGCCGC | - - 1 1 1 1 1 4 4 4 4 4 4 4 4 4 4 4 4 4\n";
TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expected);
}
{
const char *arguments[] = {
"prgnamefake",
"designnames=HllHalod#VbhChole#VblVulni#VbrFurni#PtVVVulg",
"designprobelength=14",
"designmintargets=100",
"designmishit=4",
"designmingc=70",
"designmaxgc=100",
};
const char *expected =
"Probe design parameters:\n"
"Length of probe 14\n"
"Temperature [ 0.0 -400.0]\n"
"GC-content [70.0 -100.0]\n"
"E.Coli position [any]\n"
"Max. nongroup hits 4\n"
"Min. group hits 100% (max. rejected coverage: 80%)\n"
"Target le apos ecol qual grps G+C temp Probe sequence | Decrease T by n*.3C -> probe matches n non group species\n"
"GAGCGGCGGACGGA 14 A=75 64 21 5 78.6 50.0 UCCGUCCGCCGCUC | - - - - 1 1 1 1 1 1 5 5 9 9 10 10 10 10 10 10\n"
"CGAGCGGCGGACGG 14 A- 1 63 21 5 85.7 52.0 CCGUCCGCCGCUCG | - - - - 2 2 2 2 2 2 2 2 2 2 2 2 2 2 9 9\n"
"AGCGGCGGACGGAC 14 A+ 0 64 21 5 78.6 50.0 GUCCGUCCGCCGCU | 4 7 7 7 9 9 9 9 9 9 9 9 9 9 9 9 9 10 10 10\n";
TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expected);
}
{
const char *arguments[] = {
"prgnamefake",
"designnames=HllHalod#VbhChole#VblVulni#VbrFurni#PtVVVulg",
"designprobelength=14",
"designmintargets=100",
"designmishit=0",
"designmingc=51",
"designmaxgc=60",
};
const char *expected = ""; // no probes found!
TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expected);
}
}
void TEST_SLOW_probe_design_errors() {
// test here runs versus database ../UNIT_TESTER/run/TEST_pt_src.arb
bool use_gene_ptserver = false;
{
const char *arguments[] = {
"prgnamefake",
"designnames=CPPParap#PsAAAA00",
"designprobelength=3",
};
const char *expected_error = "Specified min. probe length 3 is below the min. allowed probe length of 8";
TEST_ARB_PROBE__REPORTS_ERROR(ARRAY_ELEMS(arguments), arguments, expected_error);
}
{
const char *arguments[] = {
"prgnamefake",
"designnames=CPPParap#PsAAAA00",
"designprobelength=15",
"designmaxprobelength=12",
};
const char *expected_error = "Max. probe length 12 is below the specified min. probe length of 15";
TEST_ARB_PROBE__REPORTS_ERROR(ARRAY_ELEMS(arguments), arguments, expected_error);
}
{
const char *expected_error = "Sequence contains only 0 bp. Impossible design request for one of the added sequences";
{
const char *arguments[] = {
"prgnamefake",
"designsequence=", // pass an empty sequence
"designprobelength=16",
};
TEST_ARB_PROBE__REPORTS_ERROR(ARRAY_ELEMS(arguments), arguments, expected_error);
}
{
const char *arguments[] = {
"prgnamefake",
"designsequence=-------------", // pass a gap-only sequence
"designprobelength=16",
};
TEST_ARB_PROBE__REPORTS_ERROR(ARRAY_ELEMS(arguments), arguments, expected_error);
}
}
{
const char *arguments[] = {
"prgnamefake",
"designsequence=ACGTACGTACGTACGT", // pass a long enough (unexpected) sequence
"designprobelength=16",
};
const char *expected_error = "Got 0 unknown marked species, but 1 custom sequence was added (has to match)";
TEST_ARB_PROBE__REPORTS_ERROR(ARRAY_ELEMS(arguments), arguments, expected_error);
}
{
const char *arguments[] = {
"prgnamefake",
"designnames=Unknown", // one unknown species
"designprobelength=16",
};
const char *expected_error = "No species marked - no probes designed";
TEST_ARB_PROBE__REPORTS_ERROR(ARRAY_ELEMS(arguments), arguments, expected_error);
}
{
const char *arguments[] = {
"prgnamefake",
"designnames=Unknown#CPPParap", // one unknown species, one known species
"designprobelength=16",
};
const char *expected_error = "Got 1 unknown marked species, but 0 custom sequences were added (has to match)";
TEST_ARB_PROBE__REPORTS_ERROR(ARRAY_ELEMS(arguments), arguments, expected_error);
}
{
const char *expected_error = "Sequence contains only 0 bp. Impossible design request for one of the added sequences";
{
const char *arguments[] = {
"prgnamefake",
"designnames=Unknown", // one unknown species
"designsequence=", // pass an empty sequence
"designprobelength=16",
};
TEST_ARB_PROBE__REPORTS_ERROR(ARRAY_ELEMS(arguments), arguments, expected_error);
}
{
const char *arguments[] = {
"prgnamefake",
"designnames=Unknown", // one unknown species
"designsequence=-------------", // pass a gap-only sequence
"designprobelength=16",
};
TEST_ARB_PROBE__REPORTS_ERROR(ARRAY_ELEMS(arguments), arguments, expected_error);
}
}
}
void TEST_SLOW_match_designed_probe() {
// test here runs versus database ../UNIT_TESTER/run/TEST_pt_src.arb
bool use_gene_ptserver = false;
const char *arguments[] = {
"prgnamefake",
"matchsequence=UCAAGUCGAGCGAUGAAG",
};
CCP expected = " name---- fullname mis N_mis wmis pos ecoli rev 'UCAAGUCGAGCGAUGAAG'\1"
"ClnCorin\1" " ClnCorin 0 0 0.0 18 17 0 .GAGUUUGA-==================-UUCCUUCGG\1"
"CltBotul\1" " CltBotul 0 0 0.0 18 17 0 ........A-==================-CUUCUUCGG\1"
"CPPParap\1" " CPPParap 0 0 0.0 18 17 0 AGAGUUUGA-==================-UUCCUUCGG\1"
"ClfPerfr\1" " ClfPerfr 0 0 0.0 18 17 0 AGAGUUUGA-==================-UUUCCUUCG\1";
TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expected);
}
void TEST_SLOW_get_existing_probes() {
// test here runs versus database ../UNIT_TESTER/run/TEST_pt_src.arb
bool use_gene_ptserver = false;
{
const char *arguments[] = {
"prgnamefake",
"iterate=20",
"iterate_amount=10",
};
CCP expected =
"AAACCGGGGCTAATACCGGA;AAACGACTGTTAATACCGCA;AAACGATGGAAGCTTGCTTC;AAACGATGGCTAATACCGCA;AAACGGATTAGCGGCGGGAC;"
"AAACGGGCGCTAATACCGCA;AAACGGTCGCTAATACCGGA;AAACGGTGGCTAATACCGCA;AAACGTACGCTAATACCGCA;AAACTCAAGCTAATACCGCA";
TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expected);
}
{
const char *arguments[] = {
"prgnamefake",
"iterate=15",
"iterate_amount=20",
"iterate_separator=:",
};
CCP expected =
"AAACCGGGGCTAATA:AAACGACTGTTAATA:AAACGATGGAAGCTT:AAACGATGGCTAATA:AAACGGATTAGCGGC:AAACGGGCGCTAATA:AAACGGTCGCTAATA:"
"AAACGGTGGCTAATA:AAACGTACGCTAATA:AAACTCAAGCTAATA:AAACTCAGGCTAATA:AAACTGGAGAGTTTG:AAACTGTAGCTAATA:AAACTTGTTTCTCGG:"
"AAAGAGGTGCTAATA:AAAGCTTGCTTTCTT:AAAGGAACGCTAATA:AAAGGAAGATTAATA:AAAGGACAGCTAATA:AAAGGGACTTCGGTC";
TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expected);
}
{
const char *arguments[] = {
"prgnamefake",
"iterate=10",
"iterate_amount=5",
"iterate_readable=0",
};
CCP expected =
"\2\2\2\3\3\4\4\4\4\3;\2\2\2\3\4\2\3\5\4\5;\2\2\2\3\4\2\5\4\4\2;\2\2\2\3\4\2\5\4\4\3;\2\2\2\3\4\4\2\5\5\2";
TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expected);
}
{
const char *arguments[] = {
"prgnamefake",
"iterate=3",
"iterate_amount=70",
"iterate_tu=U",
};
CCP expected =
"AAA;AAC;AAG;AAU;ACA;ACC;ACG;ACU;AGA;AGC;AGG;AGU;AUA;AUC;AUG;AUU;"
"CAA;CAC;CAG;CAU;CCA;CCC;CCG;CCU;CGA;CGC;CGG;CGU;CUA;CUC;CUG;CUU;"
"GAA;GAC;GAG;GAU;GCA;GCC;GCG;GCU;GGA;GGC;GGG;GGU;GUA;GUC;GUG;GUU;"
"UAA;UAC;UAG;UAU;UCA;UCC;UCG;UCU;UGA;UGC;UGG;UGU;UUA;UUC;UUG;UUU";
TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expected);
}
{
const char *arguments[] = {
"prgnamefake",
"iterate=2",
"iterate_amount=20",
};
CCP expected =
"AA;AC;AG;AT;"
"CA;CC;CG;CT;"
"GA;GC;GG;GT;"
"TA;TC;TG;TT";
TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, expected);
}
}
// #define TEST_AUTO_UPDATE // uncomment to auto-update expected index dumps
void TEST_SLOW_index_dump() {
for (int use_gene_ptserver = 0; use_gene_ptserver <= 1; use_gene_ptserver++) {
const char *dumpfile = use_gene_ptserver ? "index_gpt.dump" : "index_pt.dump";
char *dumpfile_exp = GBS_global_string_copy("%s.expected", dumpfile);
const char *arguments[] = {
"prgnamefake",
GBS_global_string_copy("dump=%s", dumpfile),
};
TEST_ARB_PROBE(ARRAY_ELEMS(arguments), arguments, "ok");
#if defined(TEST_AUTO_UPDATE)
TEST_COPY_FILE(dumpfile, dumpfile_exp);
#else // !defined(TEST_AUTO_UPDATE)
TEST_EXPECT_TEXTFILES_EQUAL(dumpfile_exp, dumpfile);
#endif
TEST_EXPECT_ZERO_OR_SHOW_ERRNO(unlink(dumpfile));
free((char*)arguments[1]);
free(dumpfile_exp);
}
}
#undef TEST_AUTO_UPDATE
// --------------------------------------------------------------------------------
#include <arb_strarray.h>
#include <set>
#include <iterator>
using namespace std;
typedef set<string> Matches;
inline void parseMatches(char*& answer, Matches& matches) {
ConstStrArray match_results;
GBT_splitNdestroy_string(match_results, answer, "\1", false);
for (size_t i = 1; i<match_results.size(); i += 2) {
if (match_results[i][0]) {
matches.insert(match_results[i]);
}
}
}
inline void getMatches(const char *probe, Matches& matches) {
bool use_gene_ptserver = false;
char *matchseq = GBS_global_string_copy("matchsequence=%s", probe);
const char *arguments[] = {
"prgnamefake",
matchseq,
};
TEST_RUN_ARB_PROBE(ARRAY_ELEMS(arguments), arguments);
parseMatches(answer, matches);
free(matchseq);
}
inline string matches2hitlist(const Matches& matches) {
string hitlist;
if (!matches.empty()) {
for (Matches::const_iterator m = matches.begin(); m != matches.end(); ++m) {
hitlist = hitlist + ',' + *m;
}
hitlist = hitlist.substr(1);
}
return hitlist;
}
inline void extract_first_but_not_second(const Matches& first, const Matches& second, Matches& result) {
set_difference(first.begin(), first.end(),
second.begin(), second.end(),
inserter(result, result.begin()));
}
// --------------------------------------------------------------------------------
// #define TEST_INDEX_COMPLETENESS // only uncomment temporarily (slow as hell)
#if defined(TEST_INDEX_COMPLETENESS)
void TEST_SLOW_find_unmatched_probes() {
bool use_gene_ptserver = false;
// get all 20mers indexed in ptserver:
ConstStrArray fullProbes;
{
const char *arguments[] = {
"prgnamefake",
"iterate=20",
"iterate_amount=1000000",
"iterate_tu=U",
};
TEST_RUN_ARB_PROBE(ARRAY_ELEMS(arguments), arguments);
GBT_splitNdestroy_string(fullProbes, answer, ";", false);
TEST_EXPECT_EQUAL(fullProbes.size(), 2040);
}
for (size_t lp = 0; lp<fullProbes.size(); ++lp) { // with all 20mers existing in ptserver
const char *fullProbe = fullProbes[lp];
size_t fullLen = strlen(fullProbe);
TEST_EXPECT_EQUAL(fullLen, 20);
Matches fullHits;
getMatches(fullProbe, fullHits);
TEST_EXPECT(fullHits.size()>0);
bool fewerHitsSeen = false;
for (size_t subLen = fullLen-1; !fewerHitsSeen && subLen >= 10; --subLen) { // for each partial sub-probe of 20mer
char subProbe[20];
subProbe[subLen] = 0;
for (size_t pos = 0; pos+subLen <= fullLen; ++pos) {
Matches subHits, onlyFull;
memcpy(subProbe, fullProbe+pos, subLen);
getMatches(subProbe, subHits);
extract_first_but_not_second(fullHits, subHits, onlyFull);
if (!onlyFull.empty()) {
fprintf(stderr, "TEST_PARTIAL_COVERS_FULL_PROBE__BROKEN(\"%s\", \"%s\");\n", subProbe, fullProbe);
fewerHitsSeen = true; // only list first wrong hit for each fullProbe
}
}
}
}
}
#endif
// --------------------------------------------------------------------------------
static arb_test::match_expectation partial_covers_full_probe(const char *part, const char *full) {
using namespace arb_test;
using namespace std;
expectation_group expected;
expected.add(that(strstr(full, part)).does_differ_from_NULL());
expected.add(that(strlen(part)).is_less_than(strlen(full)));
{
Matches matchFull, matchPart;
getMatches(full, matchFull);
getMatches(part, matchPart);
expected.add(that(matchFull.empty()).is_equal_to(false));
Matches onlyFirst;
extract_first_but_not_second(matchFull, matchPart, onlyFirst);
string only_hit_by_full = matches2hitlist(onlyFirst);
expected.add(that(only_hit_by_full).is_equal_to(""));
}
return all().ofgroup(expected);
}
#define TEST_PARTIAL_COVERS_FULL_PROBE(part,full) TEST_EXPECTATION(partial_covers_full_probe(part, full))
#define TEST_PARTIAL_COVERS_FULL_PROBE__BROKEN(part,full) TEST_EXPECTATION__BROKEN(partial_covers_full_probe(part, full))
void TEST_SLOW_unmatched_probes() {
TEST_PARTIAL_COVERS_FULL_PROBE("CCUCCUUUCU", "GAUUAAUACCCCUCCUUUCU");
TEST_PARTIAL_COVERS_FULL_PROBE("CGGUUGGAUC", "GGGGAACCUGCGGUUGGAUC");
TEST_PARTIAL_COVERS_FULL_PROBE("CGGUUGGAUCA", "GGGAACCUGCGGUUGGAUCA");
TEST_PARTIAL_COVERS_FULL_PROBE("CGGUUGGAUCAC", "GGAACCUGCGGUUGGAUCAC");
TEST_PARTIAL_COVERS_FULL_PROBE("CGGUUGGAUCACC", "GAACCUGCGGUUGGAUCACC");
TEST_PARTIAL_COVERS_FULL_PROBE("CGGUUGGAUCACCU", "AACCUGCGGUUGGAUCACCU");
TEST_PARTIAL_COVERS_FULL_PROBE("CGGUUGGAUCACCUC", "ACCUGCGGUUGGAUCACCUC");
TEST_PARTIAL_COVERS_FULL_PROBE("CGGUUGGAUCACCUCC", "CCUGCGGUUGGAUCACCUCC");
TEST_PARTIAL_COVERS_FULL_PROBE("CGGUUGGAUCACCUCCU", "CUGCGGUUGGAUCACCUCCU");
TEST_PARTIAL_COVERS_FULL_PROBE("CGGUUGGAUCACCUCCUU", "UGCGGUUGGAUCACCUCCUU");
TEST_PARTIAL_COVERS_FULL_PROBE("CGGUUGGAUCACCUCCUUA", "GCGGUUGGAUCACCUCCUUA");
TEST_PARTIAL_COVERS_FULL_PROBE("GCGCUGGAUC", "GGGGAACCUGGCGCUGGAUC");
TEST_PARTIAL_COVERS_FULL_PROBE("GCGCUGGAUCA", "GGGAACCUGGCGCUGGAUCA");
TEST_PARTIAL_COVERS_FULL_PROBE("GCGCUGGAUCAC", "GGAACCUGGCGCUGGAUCAC");
TEST_PARTIAL_COVERS_FULL_PROBE("GCGCUGGAUCACC", "GAACCUGGCGCUGGAUCACC");
TEST_PARTIAL_COVERS_FULL_PROBE("GCGCUGGAUCACCU", "AACCUGGCGCUGGAUCACCU");
TEST_PARTIAL_COVERS_FULL_PROBE("GCGCUGGAUCACCUC", "ACCUGGCGCUGGAUCACCUC");
TEST_PARTIAL_COVERS_FULL_PROBE("GCGCUGGAUCACCUCC", "CCUGGCGCUGGAUCACCUCC");
TEST_PARTIAL_COVERS_FULL_PROBE("GCGCUGGAUCACCUCCU", "CUGGCGCUGGAUCACCUCCU");
TEST_PARTIAL_COVERS_FULL_PROBE("GCGCUGGAUCACCUCCUU", "UGGCGCUGGAUCACCUCCUU");
TEST_PARTIAL_COVERS_FULL_PROBE("GCGCUGGAUCACCUCCUUU", "GGCGCUGGAUCACCUCCUUU");
TEST_PARTIAL_COVERS_FULL_PROBE("GCUGGAUCAC", "GGAACCUGCGGCUGGAUCAC");
TEST_PARTIAL_COVERS_FULL_PROBE("GCUGGAUCACC", "GAACCUGCGGCUGGAUCACC");
TEST_PARTIAL_COVERS_FULL_PROBE("GCUGGAUCACCU", "AACCUGCGGCUGGAUCACCU");
TEST_PARTIAL_COVERS_FULL_PROBE("GCUGGAUCACCUC", "ACCUGCGGCUGGAUCACCUC");
TEST_PARTIAL_COVERS_FULL_PROBE("GCUGGAUCACCUCC", "CCUGCGGCUGGAUCACCUCC");
TEST_PARTIAL_COVERS_FULL_PROBE("GCUGGAUCACCUCCU", "CUGCGGCUGGAUCACCUCCU");
TEST_PARTIAL_COVERS_FULL_PROBE("GCUGGAUCACCUCCUU", "UGCGGCUGGAUCACCUCCUU");
TEST_PARTIAL_COVERS_FULL_PROBE("GCUGGAUCACCUCCUUU", "GCGGCUGGAUCACCUCCUUU");
TEST_PARTIAL_COVERS_FULL_PROBE("GCUGGAUCACCUCCUUUC", "CGGCUGGAUCACCUCCUUUC");
// the data of the following tests is located right in front of the dots inserted in [8962]
TEST_PARTIAL_COVERS_FULL_PROBE("UUUGAUCAAG", "AAUUGAAGAGUUUGAUCAAG");
TEST_PARTIAL_COVERS_FULL_PROBE("UUUGAUCAAGU", "AUUGAAGAGUUUGAUCAAGU");
TEST_PARTIAL_COVERS_FULL_PROBE("UUUGAUCAAGUC", "UUGAAGAGUUUGAUCAAGUC");
TEST_PARTIAL_COVERS_FULL_PROBE("UUUGAUCAAGUCG", "UGAAGAGUUUGAUCAAGUCG");
TEST_PARTIAL_COVERS_FULL_PROBE("UUUGAUCAAGUCGA", "GAAGAGUUUGAUCAAGUCGA");
TEST_PARTIAL_COVERS_FULL_PROBE("UUUGAUCAAGUCGAG", "AAGAGUUUGAUCAAGUCGAG");
TEST_PARTIAL_COVERS_FULL_PROBE("UUUGAUCAAGUCGAGC", "AGAGUUUGAUCAAGUCGAGC");
TEST_PARTIAL_COVERS_FULL_PROBE("UUUGAUCAAGUCGAGCG", "GAGUUUGAUCAAGUCGAGCG");
TEST_PARTIAL_COVERS_FULL_PROBE("UUUGAUCAAGUCGAGCGG", "AGUUUGAUCAAGUCGAGCGG");
TEST_PARTIAL_COVERS_FULL_PROBE("UUUGAUCAAGUCGAGCGGU", "GUUUGAUCAAGUCGAGCGGU");
}
void TEST_SLOW_variable_defaults_in_server() {
test_setup(false);
const char *server_tag = GBS_ptserver_tag(TEST_SERVER_ID);
TEST_EXPECT_NO_ERROR(arb_look_and_start_server(AISC_MAGIC_NUMBER, server_tag));
const char *servername = GBS_read_arb_tcp(server_tag);
{
char *socketname = GBS_global_string_copy(":%s", GB_path_in_ARBHOME("UNIT_TESTER/sockets/pt.socket"));
TEST_EXPECT_EQUAL(servername, socketname); // as defined in ../lib/arb_tcp.dat@ARB_TEST_PT_SERVER
free(socketname);
}
T_PT_MAIN com;
T_PT_LOCS locs;
GB_ERROR error = NULL;
aisc_com *link = aisc_open(servername, com, AISC_MAGIC_NUMBER, &error);
TEST_EXPECT_NO_ERROR(error);
TEST_REJECT_NULL(link);
TEST_EXPECT_ZERO(aisc_create(link, PT_MAIN, com,
MAIN_LOCS, PT_LOCS, locs,
NULL));
{
#define LOCAL(rvar) (prev_read_##rvar)
#define FREE_LOCAL_long(rvar)
#define FREE_LOCAL_charp(rvar) free(LOCAL(rvar))
#define FREE_LOCAL(type,rvar) FREE_LOCAL_##type(rvar)
#define TEST__READ(type,rvar,expected) \
do { \
TEST_EXPECT_ZERO(aisc_get(link, PT_LOCS, locs, rvar, &(LOCAL(rvar)), NULL)); \
TEST_EXPECT_EQUAL(LOCAL(rvar), expected); \
FREE_LOCAL(type,rvar); \
} while(0)
#define TEST_WRITE(type,rvar,val) \
TEST_EXPECT_ZERO(aisc_put(link, PT_LOCS, locs, rvar, (type)val, NULL))
#define TEST_CHANGE(type,rvar,val) \
do { \
TEST_WRITE(type, rvar, val); \
TEST__READ(type, rvar, val); \
} while(0)
#define TEST_DEFAULT_CHANGE(ctype,type,remote_variable,default_value,other_value) \
do { \
ctype DEFAULT_VALUE = default_value; \
ctype OTHER_VALUE = other_value; \
type LOCAL(remote_variable); \
TEST__READ(type, remote_variable, DEFAULT_VALUE); \
TEST_CHANGE(type, remote_variable, OTHER_VALUE); \
TEST_CHANGE(type, remote_variable, DEFAULT_VALUE); \
} while(0)
TEST_DEFAULT_CHANGE(const long, long, LOCS_MATCH_REVERSED, 1, 67);
typedef char *charp;
typedef const char *ccharp;
TEST_DEFAULT_CHANGE(ccharp, charp, LOCS_LOGINTIME, "notime", "sometime");
}
TEST_EXPECT_ZERO(aisc_close(link, com));
link = 0;
}
#endif // UNIT_TESTS
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