/*
* TODO: replace original specification with a SRFI standard or other de facto
* standard
*/
SCM_EXPORT ScmObj
scm_p_providedp(ScmObj feature)
{
DECLARE_FUNCTION("provided?", procedure_fixed_1);
ENSURE_STRING(feature);
return MAKE_BOOL(scm_providedp(feature));
}
SCM_EXPORT ScmObj
scm_p_string2symbol(ScmObj str)
{
DECLARE_FUNCTION("string->symbol", procedure_fixed_1);
ENSURE_STRING(str);
return scm_intern(SCM_STRING_STR(str));
}
/*
* TODO: replace original specification with a SRFI standard or other de facto
* standard
*/
SCM_EXPORT ScmObj
scm_p_provide(ScmObj feature)
{
DECLARE_FUNCTION("provide", procedure_fixed_1);
ENSURE_STRING(feature);
scm_provide(feature);
return SCM_TRUE;
}
/* FIXME: make (pair? err-obj) #f */
SCM_EXPORT ScmObj
scm_make_error_obj(ScmObj reason, ScmObj objs)
{
DECLARE_INTERNAL_FUNCTION("scm_make_error_obj");
#if 0
/* should be string, but not forced. displayable is sufficient. */
ENSURE_STRING(reason);
#endif
ENSURE_LIST(objs);
return LIST_4(l_err_obj_tag, reason, objs, scm_trace_stack());
}
/*
* Disabled to avoid API confusion. -- YamaKen 2006-03-26
*
* TODO: describe compatibility with de facto standard of other Scheme
* implementations. Consider compatibility with following uim predicates. The
* names are based on existing extensions of major Scheme implementations.
*
* - file-readable?
* - file-writable?
* - file-executable?
* - file-regular?
* - file-directory?
*/
SCM_EXPORT ScmObj
scm_p_file_existsp(ScmObj filepath)
{
FILE *f;
/* a dummy comment is inserted to be hidden from build_func_table.rb */
DECLARE_FUNCTION/**/("file-exists?", procedure_fixed_1);
ENSURE_STRING(filepath);
f = fopen(SCM_STRING_STR(filepath), "r");
if (!f)
return SCM_FALSE;
fclose(f);
return SCM_TRUE;
}
SCM_EXPORT ScmObj
scm_p_string2number(ScmObj str, ScmObj args)
{
scm_int_t ret;
int r;
const char *c_str;
scm_bool err;
DECLARE_FUNCTION("string->number", procedure_variadic_1);
ENSURE_STRING(str);
c_str = SCM_STRING_STR(str);
r = prepare_radix(SCM_MANGLE(name), args);
ret = scm_string2number(c_str, r, &err);
return (err) ? SCM_FALSE : MAKE_INT(ret);
}
SCM_EXPORT ScmObj
scm_p_set_current_char_codecx(ScmObj encoding)
{
ScmCharCodec *codec;
DECLARE_FUNCTION("%%set-current-char-codec!", procedure_fixed_1);
ENSURE_STRING(encoding);
#if SCM_USE_MULTIBYTE_CHAR
codec = scm_mb_find_codec(SCM_STRING_STR(encoding));
if (!codec)
ERR_OBJ(ERRMSG_UNSUPPORTED_ENCODING, encoding);
scm_current_char_codec = codec;
#else
ERR(ERRMSG_CODEC_SW_NOT_SUPPORTED);
#endif
return scm_p_current_char_codec();
}
SCM_EXPORT ScmObj
scm_p_require(ScmObj filename)
{
#if SCM_COMPAT_SIOD
ScmObj loaded_str, retsym;
#endif
DECLARE_FUNCTION("require", procedure_fixed_1);
ENSURE_STRING(filename);
scm_require_internal(SCM_STRING_STR(filename));
#if SCM_COMPAT_SIOD
loaded_str = make_loaded_str(SCM_STRING_STR(filename));
retsym = scm_intern(SCM_STRING_STR(loaded_str));
SCM_SYMBOL_SET_VCELL(retsym, SCM_TRUE);
return retsym;
#else
return SCM_TRUE;
#endif
}
int adb__sequenceQueryByKey(struct soap* soap,xsd__string dbName,
xsd__string trackKey,
xsd__string featureFileName,
xsd__int queryType,
xsd__string keyFileName,
xsd__string timesFileName,
xsd__int queryPoint,
xsd__int pointNN,
xsd__int trackNN,
xsd__int sequenceLength,
xsd__double radius,
xsd__double absolute_threshold,
xsd__int usingQueryPoint,
xsd__int lsh_exact, xsd__int no_unit_norming,
struct adb__queryResponse& adbQueryResponse){
char qtypeStr[256];
fprintf(stderr, "Calling %s query on database %s with %s=%s, distFun:%s\n", (trackKey&&strlen(trackKey))?"KEY":"FILENAME", dbName, (trackKey&&strlen(trackKey))?"KEY":"FILENAME",(trackKey&&strlen(trackKey))?trackKey:featureFileName, no_unit_norming?"Euclidean":"Normed Euclidean");
INTSTRINGIFY(queryPoint, qPosStr);
INTSTRINGIFY(pointNN, pointNNStr);
INTSTRINGIFY(trackNN, trackNNStr);
INTSTRINGIFY(sequenceLength, seqLenStr);
DOUBLESTRINGIFY(absolute_threshold, absolute_thresholdStr);
DOUBLESTRINGIFY(radius, radiusStr);
snprintf(qtypeStr, 256, "nsequence");
const char *argv[]={
"./audioDB",
COM_QUERY,
qtypeStr,
COM_DATABASE,
dbName,
(trackKey&&strlen(trackKey))?COM_QUERYKEY:COM_FEATURES,
(trackKey&&strlen(trackKey))?ENSURE_STRING(trackKey):ENSURE_STRING(featureFileName),
COM_KEYLIST,
ENSURE_STRING(keyFileName),
usingQueryPoint?COM_QPOINT:COM_EXHAUSTIVE,
usingQueryPoint?qPosStr:"",
COM_POINTNN,
pointNNStr,
COM_TRACKNN,
trackNNStr,
COM_RADIUS,
radiusStr,
COM_SEQLEN,
seqLenStr,
COM_ABSOLUTE_THRESH,
absolute_thresholdStr,
lsh_exact?COM_LSH_EXACT:"",
no_unit_norming?COM_NO_UNIT_NORMING:"",
};
const unsigned argc = 23;
try {
audioDB(argc, argv, soap, &adbQueryResponse);
return SOAP_OK;
} catch (char *err) {
soap_receiver_fault(soap, err, "");
return SOAP_FAULT;
}
}
// Literal translation of command line to web service
int adb__query(struct soap* soap, xsd__string dbName,
xsd__string qKey, xsd__string keyList,
xsd__string timesFileName, xsd__string powerFileName,
xsd__int qType,
xsd__int qPos, xsd__int pointNN, xsd__int trackNN,
xsd__int seqLen,
xsd__double radius,
xsd__double absolute_threshold, xsd__double relative_threshold,
xsd__int exhaustive, xsd__int lsh_exact, xsd__int no_unit_norming,
adb__queryResponse &adbQueryResponse){
char queryType[256];
fprintf(stderr,"Calling fileName query on database %s with featureFile=%s\n", dbName, qKey);
for(int k=0; k<256; k++)
queryType[k]='\0';
if(qType == O2_POINT_QUERY)
strncpy(queryType, "point", strlen("point"));
else if (qType == O2_SEQUENCE_QUERY)
strncpy(queryType, "sequence", strlen("sequence"));
else if(qType == O2_TRACK_QUERY)
strncpy(queryType,"track", strlen("track"));
else if(qType == O2_N_SEQUENCE_QUERY)
strncpy(queryType,"nsequence", strlen("nsequence"));
if(pointNN==0)
pointNN=10;
if(trackNN==0)
trackNN=10;
if(seqLen==0)
seqLen=16;
INTSTRINGIFY(qPos, qPosStr);
INTSTRINGIFY(pointNN, pointNNStr);
INTSTRINGIFY(trackNN, trackNNStr);
INTSTRINGIFY(seqLen, seqLenStr);
/* We don't necessarily use these, but because of scope we do this
anyway. We waste 756 bytes of stack this way. */
DOUBLESTRINGIFY(radius, radiusStr);
DOUBLESTRINGIFY(absolute_threshold, absolute_thresholdStr);
DOUBLESTRINGIFY(relative_threshold, relative_thresholdStr);
unsigned int argc = 19;
if (powerFileName) {
argc += 2;
}
if (radius != 0) {
argc += 2;
}
/* we can't use use_absolute_threshold and friends because we're not
in the audioDB class here. */
if (absolute_threshold != 0) {
argc += 2;
}
if (relative_threshold != 0) {
argc += 2;
}
if (exhaustive) {
argc++;
}
if (lsh_exact) {
argc++;
}
if(no_unit_norming){
argc++;
}
const char **argv = new const char*[argc+1];
argv[0] = "./audioDB";
argv[1] = COM_QUERY;
argv[2] = queryType;
argv[3] = COM_DATABASE;
argv[4] = (char *) (ENSURE_STRING(dbName));
argv[5] = COM_FEATURES;
argv[6] = (char *) (ENSURE_STRING(qKey));
argv[7] = COM_KEYLIST;
argv[8] = (char *) (ENSURE_STRING(keyList));
argv[9] = COM_TIMES;
argv[10] = (char *) (ENSURE_STRING(timesFileName));
argv[11] = COM_QPOINT;
argv[12] = qPosStr;
argv[13] = COM_POINTNN;
argv[14] = pointNNStr;
argv[15] = COM_TRACKNN;
argv[16] = trackNNStr;
argv[17] = COM_SEQLEN;
argv[18] = seqLenStr;
int argv_counter = 19;
if (powerFileName) {
argv[argv_counter++] = COM_QUERYPOWER;
argv[argv_counter++] = powerFileName;
}
if (radius != 0) {
argv[argv_counter++] = COM_RADIUS;
argv[argv_counter++] = radiusStr;
}
if (absolute_threshold != 0) {
argv[argv_counter++] = COM_ABSOLUTE_THRESH;
argv[argv_counter++] = absolute_thresholdStr;
}
if (relative_threshold != 0) {
argv[argv_counter++] = COM_RELATIVE_THRESH;
argv[argv_counter++] = relative_thresholdStr;
}
if (exhaustive) {
argv[argv_counter++] = COM_EXHAUSTIVE;
}
if (lsh_exact) {
argv[argv_counter++] = COM_LSH_EXACT;
}
if (no_unit_norming) {
argv[argv_counter++] = COM_NO_UNIT_NORMING;
}
argv[argv_counter] = NULL;
try {
audioDB(argc, argv, soap, &adbQueryResponse);
delete [] argv;
return SOAP_OK;
} catch (char *err) {
soap_receiver_fault(soap, err, "");
delete [] argv;
return SOAP_FAULT;
}
}
