fixed multiple GCC warnings on Ubuntu 11.04

This commit is contained in:
Vadim Pisarevsky 2011-06-14 12:03:34 +00:00
parent e05c488868
commit 22970b8270
22 changed files with 111 additions and 98 deletions

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@ -730,9 +730,9 @@ void jas_iccattrtab_dump(jas_iccattrtab_t *attrtab, FILE *out)
fprintf(out, "attrno=%d; attrname=\"%s\"(0x%08x); attrtype=\"%s\"(0x%08x)\n",
i,
jas_iccsigtostr(attr->name, &buf[0]),
attr->name,
(unsigned)attr->name,
jas_iccsigtostr(attrval->type, &buf[8]),
attrval->type
(unsigned)attrval->type
);
jas_iccattrval_dump(attrval, out);
fprintf(out, "---\n");
@ -884,7 +884,7 @@ void jas_iccattrval_dump(jas_iccattrval_t *attrval, FILE *out)
char buf[8];
jas_iccsigtostr(attrval->type, buf);
fprintf(out, "refcnt = %d; type = 0x%08x %s\n", attrval->refcnt,
attrval->type, jas_iccsigtostr(attrval->type, &buf[0]));
(unsigned)attrval->type, jas_iccsigtostr(attrval->type, &buf[0]));
if (attrval->ops->dump) {
(*attrval->ops->dump)(attrval, out);
}
@ -1041,7 +1041,7 @@ static void jas_icccurv_dump(jas_iccattrval_t *attrval, FILE *out)
{
int i;
jas_icccurv_t *curv = &attrval->data.curv;
fprintf(out, "number of entires = %d\n", curv->numents);
fprintf(out, "number of entires = %d\n", (int)curv->numents);
if (curv->numents == 1) {
fprintf(out, "gamma = %f\n", curv->ents[0] / 256.0);
} else {
@ -1167,9 +1167,9 @@ static void jas_icctxtdesc_dump(jas_iccattrval_t *attrval, FILE *out)
{
jas_icctxtdesc_t *txtdesc = &attrval->data.txtdesc;
fprintf(out, "ascii = \"%s\"\n", txtdesc->ascdata);
fprintf(out, "uclangcode = %d; uclen = %d\n", txtdesc->uclangcode,
txtdesc->uclen);
fprintf(out, "sccode = %d\n", txtdesc->sccode);
fprintf(out, "uclangcode = %d; uclen = %d\n", (int)txtdesc->uclangcode,
(int)txtdesc->uclen);
fprintf(out, "sccode = %d\n", (int)txtdesc->sccode);
fprintf(out, "maclen = %d\n", txtdesc->maclen);
}
@ -1401,7 +1401,7 @@ static void jas_icclut8_dump(jas_iccattrval_t *attrval, FILE *out)
fprintf(out, "\n");
}
fprintf(out, "numintabents=%d, numouttabents=%d\n",
lut8->numintabents, lut8->numouttabents);
(int)lut8->numintabents, (int)lut8->numouttabents);
}
/******************************************************************************\
@ -1565,7 +1565,7 @@ static void jas_icclut16_dump(jas_iccattrval_t *attrval, FILE *out)
fprintf(out, "\n");
}
fprintf(out, "numintabents=%d, numouttabents=%d\n",
lut16->numintabents, lut16->numouttabents);
(int)lut16->numintabents, (int)lut16->numouttabents);
}
/******************************************************************************\

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@ -822,7 +822,7 @@ void jas_image_dump(jas_image_t *image, FILE *out)
for (cmptno = 0; cmptno < image->numcmpts_; ++cmptno) {
cmpt = image->cmpts_[cmptno];
fprintf(out, "prec=%d, sgnd=%d, cmpttype=%d\n", cmpt->prec_,
cmpt->sgnd_, cmpt->type_);
cmpt->sgnd_, (int)cmpt->type_);
width = jas_image_cmptwidth(image, cmptno);
height = jas_image_cmptheight(image, cmptno);
n = JAS_MIN(16, width);

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@ -423,10 +423,10 @@ int jas_seq2d_output(jas_matrix_t *matrix, FILE *out)
char sbuf[MAXLINELEN + 1];
int n;
fprintf(out, "%d %d\n", jas_seq2d_xstart(matrix),
jas_seq2d_ystart(matrix));
fprintf(out, "%d %d\n", jas_matrix_numcols(matrix),
jas_matrix_numrows(matrix));
fprintf(out, "%d %d\n", (int)jas_seq2d_xstart(matrix),
(int)jas_seq2d_ystart(matrix));
fprintf(out, "%d %d\n", (int)jas_matrix_numcols(matrix),
(int)jas_matrix_numrows(matrix));
buf[0] = '\0';
for (i = 0; i < jas_matrix_numrows(matrix); ++i) {

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@ -321,7 +321,7 @@ void jp2_box_dump(jp2_box_t *box, FILE *out)
fprintf(out, "JP2 box: ");
fprintf(out, "type=%c%s%c (0x%08x); length=%d\n", '"', boxinfo->name,
'"', box->type, box->len);
'"', (unsigned)box->type, (int)box->len);
if (box->ops->dumpdata) {
(*box->ops->dumpdata)(box, out);
}
@ -433,7 +433,7 @@ static void jp2_cdef_dumpdata(jp2_box_t *box, FILE *out)
unsigned int i;
for (i = 0; i < cdef->numchans; ++i) {
fprintf(out, "channo=%d; type=%d; assoc=%d\n",
cdef->ents[i].channo, cdef->ents[i].type, cdef->ents[i].assoc);
(int)cdef->ents[i].channo, (int)cdef->ents[i].type, (int)cdef->ents[i].assoc);
}
}
@ -871,7 +871,7 @@ static void jp2_pclr_dumpdata(jp2_box_t *box, FILE *out)
(int) pclr->numchans);
for (i = 0; i < pclr->numlutents; ++i) {
for (j = 0; j < pclr->numchans; ++j) {
fprintf(out, "LUT[%d][%d]=%d\n", i, j, pclr->lutdata[i * pclr->numchans + j]);
fprintf(out, "LUT[%d][%d]=%d\n", i, j, (int)pclr->lutdata[i * pclr->numchans + j]);
}
}
}

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@ -403,9 +403,9 @@ void jpc_ms_dump(jpc_ms_t *ms, FILE *out)
{
jpc_mstabent_t *mstabent;
mstabent = jpc_mstab_lookup(ms->id);
fprintf(out, "type = 0x%04x (%s);", ms->id, mstabent->name);
fprintf(out, "type = 0x%04x (%s);", (unsigned)ms->id, mstabent->name);
if (JPC_MS_HASPARMS(ms->id)) {
fprintf(out, " len = %d;", ms->len + 2);
fprintf(out, " len = %d;", (int)(ms->len + 2));
if (ms->ops->dumpparms) {
(*ms->ops->dumpparms)(ms, out);
} else {
@ -459,7 +459,7 @@ static int jpc_sot_dumpparms(jpc_ms_t *ms, FILE *out)
{
jpc_sot_t *sot = &ms->parms.sot;
fprintf(out, "tileno = %d; len = %d; partno = %d; numparts = %d\n",
sot->tileno, sot->len, sot->partno, sot->numparts);
(int)sot->tileno, (int)sot->len, sot->partno, sot->numparts);
return 0;
}
@ -558,12 +558,12 @@ static int jpc_siz_dumpparms(jpc_ms_t *ms, FILE *out)
{
jpc_siz_t *siz = &ms->parms.siz;
unsigned int i;
fprintf(out, "caps = 0x%02x;\n", siz->caps);
fprintf(out, "caps = 0x%02x;\n", (unsigned)siz->caps);
fprintf(out, "width = %d; height = %d; xoff = %d; yoff = %d;\n",
siz->width, siz->height, siz->xoff, siz->yoff);
(int)siz->width, (int)siz->height, (int)siz->xoff, (int)siz->yoff);
fprintf(out, "tilewidth = %d; tileheight = %d; tilexoff = %d; "
"tileyoff = %d;\n", siz->tilewidth, siz->tileheight, siz->tilexoff,
siz->tileyoff);
"tileyoff = %d;\n", (int)siz->tilewidth, (int)siz->tileheight, (int)siz->tilexoff,
(int)siz->tileyoff);
for (i = 0; i < siz->numcomps; ++i) {
fprintf(out, "prec[%d] = %d; sgnd[%d] = %d; hsamp[%d] = %d; "
"vsamp[%d] = %d\n", i, siz->comps[i].prec, i,
@ -631,7 +631,7 @@ static int jpc_cod_dumpparms(jpc_ms_t *ms, FILE *out)
fprintf(out, "numdlvls = %d; qmfbid = %d; mctrans = %d\n",
cod->compparms.numdlvls, cod->compparms.qmfbid, cod->mctrans);
fprintf(out, "prg = %d; numlyrs = %d;\n",
cod->prg, cod->numlyrs);
cod->prg, (int)cod->numlyrs);
fprintf(out, "cblkwidthval = %d; cblkheightval = %d; "
"cblksty = 0x%02x;\n", cod->compparms.cblkwidthval, cod->compparms.cblkheightval,
cod->compparms.cblksty);
@ -709,7 +709,7 @@ static int jpc_coc_dumpparms(jpc_ms_t *ms, FILE *out)
{
jpc_coc_t *coc = &ms->parms.coc;
fprintf(out, "compno = %d; csty = 0x%02x; numdlvls = %d;\n",
coc->compno, coc->compparms.csty, coc->compparms.numdlvls);
(int)coc->compno, coc->compparms.csty, coc->compparms.numdlvls);
fprintf(out, "cblkwidthval = %d; cblkheightval = %d; "
"cblksty = 0x%02x; qmfbid = %d;\n", coc->compparms.cblkwidthval,
coc->compparms.cblkheightval, coc->compparms.cblksty, coc->compparms.qmfbid);
@ -840,7 +840,7 @@ static int jpc_rgn_dumpparms(jpc_ms_t *ms, FILE *out)
{
jpc_rgn_t *rgn = &ms->parms.rgn;
fprintf(out, "compno = %d; roisty = %d; roishift = %d\n",
rgn->compno, rgn->roisty, rgn->roishift);
(int)rgn->compno, rgn->roisty, rgn->roishift);
return 0;
}
@ -933,7 +933,7 @@ static int jpc_qcc_dumpparms(jpc_ms_t *ms, FILE *out)
jpc_qcc_t *qcc = &ms->parms.qcc;
int i;
fprintf(out, "compno = %d; qntsty = %d; numguard = %d; "
"numstepsizes = %d\n", qcc->compno, qcc->compparms.qntsty, qcc->compparms.numguard,
"numstepsizes = %d\n", (int)qcc->compno, qcc->compparms.qntsty, qcc->compparms.numguard,
qcc->compparms.numstepsizes);
for (i = 0; i < qcc->compparms.numstepsizes; ++i) {
fprintf(out, "expn[%d] = 0x%04x; mant[%d] = 0x%04x;\n",
@ -1056,7 +1056,7 @@ static int jpc_sop_putparms(jpc_ms_t *ms, jpc_cstate_t *cstate, jas_stream_t *ou
static int jpc_sop_dumpparms(jpc_ms_t *ms, FILE *out)
{
jpc_sop_t *sop = &ms->parms.sop;
fprintf(out, "seqno = %d;\n", sop->seqno);
fprintf(out, "seqno = %d;\n", (int)sop->seqno);
return 0;
}
@ -1122,7 +1122,7 @@ static int jpc_ppm_putparms(jpc_ms_t *ms, jpc_cstate_t *cstate, jas_stream_t *ou
static int jpc_ppm_dumpparms(jpc_ms_t *ms, FILE *out)
{
jpc_ppm_t *ppm = &ms->parms.ppm;
fprintf(out, "ind=%d; len = %d;\n", ppm->ind, ppm->len);
fprintf(out, "ind=%d; len = %d;\n", ppm->ind, (int)ppm->len);
if (ppm->len > 0) {
fprintf(out, "data =\n");
jas_memdump(out, ppm->data, ppm->len);
@ -1194,7 +1194,7 @@ static int jpc_ppt_putparms(jpc_ms_t *ms, jpc_cstate_t *cstate, jas_stream_t *ou
static int jpc_ppt_dumpparms(jpc_ms_t *ms, FILE *out)
{
jpc_ppt_t *ppt = &ms->parms.ppt;
fprintf(out, "ind=%d; len = %d;\n", ppt->ind, ppt->len);
fprintf(out, "ind=%d; len = %d;\n", ppt->ind, (int)ppt->len);
if (ppt->len > 0) {
fprintf(out, "data =\n");
jas_memdump(out, ppt->data, ppt->len);
@ -1301,10 +1301,10 @@ static int jpc_poc_dumpparms(jpc_ms_t *ms, FILE *out)
++pchgno, ++pchg) {
fprintf(out, "po[%d] = %d; ", pchgno, pchg->prgord);
fprintf(out, "cs[%d] = %d; ce[%d] = %d; ",
pchgno, pchg->compnostart, pchgno, pchg->compnoend);
pchgno, (int)pchg->compnostart, pchgno, (int)pchg->compnoend);
fprintf(out, "rs[%d] = %d; re[%d] = %d; ",
pchgno, pchg->rlvlnostart, pchgno, pchg->rlvlnoend);
fprintf(out, "le[%d] = %d\n", pchgno, pchg->lyrnoend);
fprintf(out, "le[%d] = %d\n", pchgno, (int)pchg->lyrnoend);
}
return 0;
}
@ -1368,7 +1368,7 @@ static int jpc_crg_dumpparms(jpc_ms_t *ms, FILE *out)
for (compno = 0, comp = crg->comps; compno < crg->numcomps; ++compno,
++comp) {
fprintf(out, "hoff[%d] = %d; voff[%d] = %d\n", compno,
comp->hoff, compno, comp->voff);
(int)comp->hoff, compno, (int)comp->voff);
}
return 0;
}
@ -1430,7 +1430,7 @@ static int jpc_com_dumpparms(jpc_ms_t *ms, FILE *out)
jpc_com_t *com = &ms->parms.com;
unsigned int i;
int printable;
fprintf(out, "regid = %d;\n", com->regid);
fprintf(out, "regid = %d;\n", (int)com->regid);
printable = 1;
for (i = 0; i < com->len; ++i) {
if (!isprint(com->data[i])) {

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@ -2003,31 +2003,31 @@ static int jpc_dec_dump(jpc_dec_t *dec, FILE *out)
tcomp->numrlvls; ++rlvlno, ++rlvl) {
fprintf(out, "RESOLUTION LEVEL %d\n", rlvlno);
fprintf(out, "xs =%d, ys = %d, xe = %d, ye = %d, w = %d, h = %d\n",
rlvl->xstart, rlvl->ystart, rlvl->xend, rlvl->yend, rlvl->xend -
rlvl->xstart, rlvl->yend - rlvl->ystart);
(int)rlvl->xstart, (int)rlvl->ystart, (int)rlvl->xend, (int)rlvl->yend, (int)(rlvl->xend -
rlvl->xstart), (int)(rlvl->yend - rlvl->ystart));
for (bandno = 0, band = rlvl->bands;
bandno < rlvl->numbands; ++bandno, ++band) {
fprintf(out, "BAND %d\n", bandno);
fprintf(out, "xs =%d, ys = %d, xe = %d, ye = %d, w = %d, h = %d\n",
jas_seq2d_xstart(band->data), jas_seq2d_ystart(band->data), jas_seq2d_xend(band->data),
jas_seq2d_yend(band->data), jas_seq2d_xend(band->data) - jas_seq2d_xstart(band->data),
jas_seq2d_yend(band->data) - jas_seq2d_ystart(band->data));
(int)jas_seq2d_xstart(band->data), (int)jas_seq2d_ystart(band->data), (int)jas_seq2d_xend(band->data),
(int)jas_seq2d_yend(band->data), (int)(jas_seq2d_xend(band->data) - jas_seq2d_xstart(band->data)),
(int)(jas_seq2d_yend(band->data) - jas_seq2d_ystart(band->data)));
for (prcno = 0, prc = band->prcs;
prcno < rlvl->numprcs; ++prcno,
++prc) {
fprintf(out, "CODE BLOCK GROUP %d\n", prcno);
fprintf(out, "xs =%d, ys = %d, xe = %d, ye = %d, w = %d, h = %d\n",
prc->xstart, prc->ystart, prc->xend, prc->yend, prc->xend -
prc->xstart, prc->yend - prc->ystart);
(int)prc->xstart, (int)prc->ystart, (int)prc->xend, (int)prc->yend, (int)(prc->xend -
prc->xstart), (int)(prc->yend - prc->ystart));
for (cblkno = 0, cblk =
prc->cblks; cblkno <
prc->numcblks; ++cblkno,
++cblk) {
fprintf(out, "CODE BLOCK %d\n", cblkno);
fprintf(out, "xs =%d, ys = %d, xe = %d, ye = %d, w = %d, h = %d\n",
jas_seq2d_xstart(cblk->data), jas_seq2d_ystart(cblk->data), jas_seq2d_xend(cblk->data),
jas_seq2d_yend(cblk->data), jas_seq2d_xend(cblk->data) - jas_seq2d_xstart(cblk->data),
jas_seq2d_yend(cblk->data) - jas_seq2d_ystart(cblk->data));
(int)jas_seq2d_xstart(cblk->data), (int)jas_seq2d_ystart(cblk->data), (int)jas_seq2d_xend(cblk->data),
(int)jas_seq2d_yend(cblk->data), (int)(jas_seq2d_xend(cblk->data) - jas_seq2d_xstart(cblk->data)),
(int)(jas_seq2d_yend(cblk->data) - jas_seq2d_ystart(cblk->data)));
}
}
}

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@ -384,7 +384,7 @@ static void jpc_mqenc_setbits(jpc_mqenc_t *mqenc)
int jpc_mqenc_dump(jpc_mqenc_t *mqenc, FILE *out)
{
fprintf(out, "AREG = %08x, CREG = %08x, CTREG = %d\n",
mqenc->areg, mqenc->creg, mqenc->ctreg);
(unsigned)mqenc->areg, (unsigned)mqenc->creg, (int)mqenc->ctreg);
fprintf(out, "IND = %02d, MPS = %d, QEVAL = %04x\n",
(int)(*mqenc->curctx - jpc_mqstates), (int)(*mqenc->curctx)->mps,
(int)(*mqenc->curctx)->qeval);

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@ -1420,7 +1420,7 @@ TIFFFetchShortPair(TIFF* tif, TIFFDirEntry* dir)
case TIFF_SHORT:
case TIFF_SSHORT:
{
uint16 v[2];
uint16 v[2]={0,0};
return TIFFFetchShortArray(tif, dir, v)
&& TIFFSetField(tif, dir->tdir_tag, v[0], v[1]);
}

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@ -36,9 +36,10 @@
#include <stdarg.h>
#include <stdlib.h>
#include <stdio.h>
#include <sys/stat.h>
#ifdef HAVE_UNISTD_H
#if defined HAVE_UNISTD_H || defined __linux__
# include <unistd.h>
#endif

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@ -3433,7 +3433,14 @@ public:
static int isInstance(const void* ptr)
{
static _ClsName dummy;
return *(const void**)&dummy == *(const void**)ptr;
union
{
const void* p;
const void** pp;
} a, b;
a.p = &dummy;
b.p = ptr;
return *a.pp == *b.pp;
}
static void release(void** dbptr)
{

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@ -558,8 +558,7 @@ void polarToCart( InputArray src1, InputArray src2,
{
Mat Mag = src1.getMat(), Angle = src2.getMat();
int type = Angle.type(), depth = Angle.depth(), cn = Angle.channels();
if( !Mag.empty() )
CV_Assert( Angle.size == Mag.size && type == Mag.type() && (depth == CV_32F || depth == CV_64F));
CV_Assert( Mag.empty() || (Angle.size == Mag.size && type == Mag.type() && (depth == CV_32F || depth == CV_64F)));
dst1.create( Angle.dims, Angle.size, type );
dst2.create( Angle.dims, Angle.size, type );
Mat X = dst1.getMat(), Y = dst2.getMat();

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@ -801,7 +801,7 @@ cvRandArr( CvRNG* _rng, CvArr* arr, int disttype, CvScalar param1, CvScalar para
// !!! this will only work for current 64-bit MWC RNG !!!
cv::RNG& rng = _rng ? (cv::RNG&)*_rng : cv::theRNG();
rng.fill(mat, disttype == CV_RAND_NORMAL ?
cv::RNG::NORMAL : cv::RNG::UNIFORM, (cv::Scalar&)param1, (cv::Scalar&)param2 );
cv::RNG::NORMAL : cv::RNG::UNIFORM, cv::Scalar(param1), cv::Scalar(param2) );
}
CV_IMPL void cvRandShuffle( CvArr* arr, CvRNG* _rng, double iter_factor )

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@ -466,8 +466,7 @@ int cv::countNonZero( InputArray _src )
cv::Scalar cv::mean( InputArray _src, InputArray _mask )
{
Mat src = _src.getMat(), mask = _mask.getMat();
if( !mask.empty() )
CV_Assert( mask.type() == CV_8U );
CV_Assert( mask.empty() || mask.type() == CV_8U );
int k, cn = src.channels(), depth = src.depth();
SumFunc func = sumTab[depth];
@ -526,8 +525,7 @@ cv::Scalar cv::mean( InputArray _src, InputArray _mask )
void cv::meanStdDev( InputArray _src, OutputArray _mean, OutputArray _sdv, InputArray _mask )
{
Mat src = _src.getMat(), mask = _mask.getMat();
if( !mask.empty() )
CV_Assert( mask.type() == CV_8U );
CV_Assert( mask.empty() || mask.type() == CV_8U );
int k, cn = src.channels(), depth = src.depth();
SumSqrFunc func = sumSqrTab[depth];
@ -1059,13 +1057,20 @@ double cv::norm( InputArray _src, int normType, InputArray _mask )
const Mat* arrays[] = {&src, &mask, 0};
uchar* ptrs[2];
double result = 0;
union
{
double d;
int i;
float f;
}
result;
result.d = 0;
NAryMatIterator it(arrays, ptrs);
int j, total = (int)it.size, blockSize = total, intSumBlockSize = 0, count = 0;
bool blockSum = (normType == NORM_L1 && depth <= CV_16S) ||
(normType == NORM_L2 && depth <= CV_8S);
int isum = 0;
int *ibuf = (int*)&result;
int *ibuf = &result.i;
size_t esz = 0;
if( blockSum )
@ -1085,7 +1090,7 @@ double cv::norm( InputArray _src, int normType, InputArray _mask )
count += bsz;
if( blockSum && (count + blockSize >= intSumBlockSize || (i+1 >= it.nplanes && j+bsz >= total)) )
{
result += isum;
result.d += isum;
isum = 0;
count = 0;
}
@ -1100,14 +1105,14 @@ double cv::norm( InputArray _src, int normType, InputArray _mask )
if( depth == CV_64F )
;
else if( depth == CV_32F )
result = (float&)result;
result.d = result.f;
else
result = (int&)result;
result.d = result.i;
}
else if( normType == NORM_L2 )
result = std::sqrt(result);
result.d = std::sqrt(result.d);
return result;
return result.d;
}
@ -1159,13 +1164,21 @@ double cv::norm( InputArray _src1, InputArray _src2, int normType, InputArray _m
const Mat* arrays[] = {&src1, &src2, &mask, 0};
uchar* ptrs[3];
double result = 0;
union
{
double d;
float f;
int i;
unsigned u;
}
result;
result.d = 0;
NAryMatIterator it(arrays, ptrs);
int j, total = (int)it.size, blockSize = total, intSumBlockSize = 0, count = 0;
bool blockSum = (normType == NORM_L1 && depth <= CV_16S) ||
(normType == NORM_L2 && depth <= CV_8S);
unsigned int isum = 0;
unsigned int *ibuf = (unsigned int*)&result;
unsigned isum = 0;
unsigned *ibuf = &result.u;
size_t esz = 0;
if( blockSum )
@ -1185,7 +1198,7 @@ double cv::norm( InputArray _src1, InputArray _src2, int normType, InputArray _m
count += bsz;
if( blockSum && (count + blockSize >= intSumBlockSize || (i+1 >= it.nplanes && j+bsz >= total)) )
{
result += isum;
result.d += isum;
isum = 0;
count = 0;
}
@ -1201,14 +1214,14 @@ double cv::norm( InputArray _src1, InputArray _src2, int normType, InputArray _m
if( depth == CV_64F )
;
else if( depth == CV_32F )
result = (float&)result;
result.d = result.f;
else
result = (int&)result;
result.d = result.u;
}
else if( normType == NORM_L2 )
result = std::sqrt(result);
result.d = std::sqrt(result.d);
return result;
return result.d;
}

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@ -352,7 +352,7 @@ bool CvCaptureCAM_DC1394_v2_CPP::startCapture()
{
dc1394video_modes_t videoModes;
dc1394_video_get_supported_modes(dcCam, &videoModes);
if (userMode < videoModes.num)
if (userMode < (int)videoModes.num)
{
dc1394video_mode_t mode = videoModes.modes[userMode];
code = dc1394_video_set_mode(dcCam, mode);
@ -665,14 +665,15 @@ bool CvCaptureCAM_DC1394_v2_CPP::setProperty(int propId, double value)
&& dcCam)
{
if (cvRound(value) == CV_CAP_PROP_DC1394_OFF)
{
if ((feature_set.feature[dc1394properties[propId]-DC1394_FEATURE_MIN].on_off_capable)
&& (dc1394_feature_set_power(dcCam, (dc1394feature_t)dc1394properties[propId], DC1394_OFF)==DC1394_SUCCESS))
{
{
feature_set.feature[dc1394properties[propId]-DC1394_FEATURE_MIN].is_on=DC1394_OFF;
return true;
}
else
}
return false;
}
//try to turn the feature ON, feature can be ON and at the same time it can be not capable to change state to OFF
if ( feature_set.feature[dc1394properties[propId]-DC1394_FEATURE_MIN].is_on == DC1394_OFF &&
(feature_set.feature[dc1394properties[propId]-DC1394_FEATURE_MIN].on_off_capable == DC1394_TRUE))

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@ -356,9 +356,7 @@ void cv::accumulate( InputArray _src, InputOutputArray _dst, InputArray _mask )
int sdepth = src.depth(), ddepth = dst.depth(), cn = src.channels();
CV_Assert( dst.size == src.size && dst.channels() == cn );
if( !mask.empty() )
CV_Assert( mask.size == src.size && mask.type() == CV_8U );
CV_Assert( mask.empty() || (mask.size == src.size && mask.type() == CV_8U) );
int fidx = getAccTabIdx(sdepth, ddepth);
AccFunc func = fidx >= 0 ? accTab[fidx] : 0;
@ -380,9 +378,7 @@ void cv::accumulateSquare( InputArray _src, InputOutputArray _dst, InputArray _m
int sdepth = src.depth(), ddepth = dst.depth(), cn = src.channels();
CV_Assert( dst.size == src.size && dst.channels() == cn );
if( !mask.empty() )
CV_Assert( mask.size == src.size && mask.type() == CV_8U );
CV_Assert( mask.empty() || (mask.size == src.size && mask.type() == CV_8U) );
int fidx = getAccTabIdx(sdepth, ddepth);
AccFunc func = fidx >= 0 ? accSqrTab[fidx] : 0;
@ -405,9 +401,7 @@ void cv::accumulateProduct( InputArray _src1, InputArray _src2,
CV_Assert( src2.size && src1.size && src2.type() == src1.type() );
CV_Assert( dst.size == src1.size && dst.channels() == cn );
if( !mask.empty() )
CV_Assert( mask.size == src1.size && mask.type() == CV_8U );
CV_Assert( mask.empty() || (mask.size == src1.size && mask.type() == CV_8U) );
int fidx = getAccTabIdx(sdepth, ddepth);
AccProdFunc func = fidx >= 0 ? accProdTab[fidx] : 0;
@ -430,9 +424,7 @@ void cv::accumulateWeighted( InputArray _src, CV_IN_OUT InputOutputArray _dst,
int sdepth = src.depth(), ddepth = dst.depth(), cn = src.channels();
CV_Assert( dst.size == src.size && dst.channels() == cn );
if( !mask.empty() )
CV_Assert( mask.size == src.size && mask.type() == CV_8U );
CV_Assert( mask.empty() || (mask.size == src.size && mask.type() == CV_8U) );
int fidx = getAccTabIdx(sdepth, ddepth);
AccWFunc func = fidx >= 0 ? accWTab[fidx] : 0;

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@ -103,7 +103,7 @@ public:
for (i=1; i<=num; i++) {
mem[i].prev = mem+i-1;
mem[i].next = mem+i+1;
mem[i].i = mem[i].i = -1;
mem[i].i = -1;
mem[i].T = FLT_MAX;
}
tail = mem+i;

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@ -494,14 +494,12 @@ icvFitLine3D( CvPoint3D32f * points, int count, int dist,
float *w; /* weights */
float *r; /* square distances */
int i, j, k;
float _line[6], _lineprev[6];
float _line[6]={0,0,0,0,0,0}, _lineprev[6]={0,0,0,0,0,0};
float rdelta = reps != 0 ? reps : 1.0f;
float adelta = aeps != 0 ? aeps : 0.01f;
double min_err = DBL_MAX, err = 0;
CvRNG rng = cvRNG(-1);
memset( line, 0, 6*sizeof(line[0]) );
switch (dist)
{
case CV_DIST_L2:

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@ -797,7 +797,11 @@ void CV_MinCircleTest::run_func()
if(!test_cpp)
cvMinEnclosingCircle( points, &center, &radius );
else
cv::minEnclosingCircle(cv::cvarrToMat(points), (cv::Point2f&)center, radius);
{
cv::Point2f tmpcenter;
cv::minEnclosingCircle(cv::cvarrToMat(points), tmpcenter, radius);
center = tmpcenter;
}
}

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@ -214,7 +214,7 @@ int CV_SubdivTest::validate_test_results( int /*test_case_idx*/ )
double xrange = img_size.width*(1 - FLT_EPSILON);
double yrange = img_size.height*(1 - FLT_EPSILON);
subdiv = subdiv = cvCreateSubdivDelaunay2D(
subdiv = cvCreateSubdivDelaunay2D(
cvRect( 0, 0, img_size.width, img_size.height ), storage );
CvSeq* seq = cvCreateSeq( 0, sizeof(*seq), sizeof(CvPoint2D32f), storage );

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@ -715,8 +715,6 @@ cvContourFromContourTree( const CvContourTree* tree,
criteria = cvCheckTermCriteria( criteria, 0., 100 );
lpt = tree->total;
ptr_buf = NULL;
level_buf = NULL;
i_buf = 0;
cur_level = 0;
log_iter = (char) (criteria.type == CV_TERMCRIT_ITER ||

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@ -150,7 +150,7 @@ static void translate_error_to_exception(void)
cvSetErrStatus(0);
}
#define ERRCHK do { if (cvGetErrStatus() != 0) { translate_error_to_exception(); return NULL; } } while (0)
#define ERRCHK do { if (cvGetErrStatus() != 0) { translate_error_to_exception(); return 0; } } while (0)
#define ERRWRAPN(F, N) \
do { \
try \
@ -3355,7 +3355,7 @@ static PyObject *pycvReshapeMatND(PyObject *self, PyObject *args)
CvMatND *cva;
if (!convert_to_CvMatND(o, &cva, "src"))
return NULL;
ints dims;
ints dims={0,0};
if (new_dims != NULL) {
if (!convert_to_ints(new_dims, &dims, "new_dims"))
return NULL;

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@ -161,7 +161,7 @@ simple_argtype_mapping = {
"int": ("int", "i", "0"),
"float": ("float", "f", "0.f"),
"double": ("double", "d", "0"),
"c_string": ("char*", "s", '""')
"c_string": ("char*", "s", '(char*)""')
}
class ClassProp(object):