void ccv_subtract(ccv_matrix_t* a, ccv_matrix_t* b, ccv_matrix_t** c, int type)
{
ccv_dense_matrix_t* da = ccv_get_dense_matrix(a);
ccv_dense_matrix_t* db = ccv_get_dense_matrix(b);
assert(da->rows == db->rows && da->cols == db->cols && CCV_GET_DATA_TYPE(da->type) == CCV_GET_DATA_TYPE(db->type) && CCV_GET_CHANNEL(da->type) == CCV_GET_CHANNEL(db->type));
ccv_declare_derived_signature(sig, da->sig != 0 && db->sig != 0, ccv_sign_with_literal("ccv_subtract"), da->sig, db->sig, CCV_EOF_SIGN);
int no_8u_type = (da->type & CCV_8U) ? CCV_32S : da->type;
type = (type == 0) ? CCV_GET_DATA_TYPE(no_8u_type) | CCV_GET_CHANNEL(da->type) : CCV_GET_DATA_TYPE(type) | CCV_GET_CHANNEL(da->type);
ccv_dense_matrix_t* dc = *c = ccv_dense_matrix_renew(*c, da->rows, da->cols, CCV_ALL_DATA_TYPE | CCV_GET_CHANNEL(da->type), type, sig);
ccv_object_return_if_cached(, dc);
int i, j, ch = CCV_GET_CHANNEL(da->type);
unsigned char* aptr = da->data.u8;
unsigned char* bptr = db->data.u8;
unsigned char* cptr = dc->data.u8;
#define for_block(_for_get, _for_set) \
for (i = 0; i < da->rows; i++) \
{ \
for (j = 0; j < da->cols * ch; j++) \
_for_set(cptr, j, _for_get(aptr, j, 0) - _for_get(bptr, j, 0), 0); \
aptr += da->step; \
bptr += db->step; \
cptr += dc->step; \
}
ccv_matrix_getter(da->type, ccv_matrix_setter, dc->type, for_block);
#undef for_block
}
void ccv_gemm(ccv_matrix_t* a, ccv_matrix_t* b, double alpha, ccv_matrix_t* c, double beta, int transpose, ccv_matrix_t** d, int type)
{
ccv_dense_matrix_t* da = ccv_get_dense_matrix(a);
ccv_dense_matrix_t* db = ccv_get_dense_matrix(b);
ccv_dense_matrix_t* dc = (c == 0) ? 0 : ccv_get_dense_matrix(c);
assert(CCV_GET_DATA_TYPE(da->type) == CCV_GET_DATA_TYPE(db->type) && CCV_GET_CHANNEL(da->type) == 1 && CCV_GET_CHANNEL(db->type) == 1 && ((transpose & CCV_A_TRANSPOSE) ? da->rows : da->cols) == ((transpose & CCV_B_TRANSPOSE) ? db->cols : db->rows));
if (dc != 0)
assert(CCV_GET_DATA_TYPE(dc->type) == CCV_GET_DATA_TYPE(da->type) && CCV_GET_CHANNEL(dc->type) == 1 && ((transpose & CCV_A_TRANSPOSE) ? da->cols : da->rows) == dc->rows && ((transpose & CCV_B_TRANSPOSE) ? db->rows : db->cols) == dc->cols);
ccv_declare_derived_signature_case(sig, ccv_sign_with_format(20, "ccv_gemm(%d)", transpose), ccv_sign_if(dc == 0 && da->sig != 0 && db->sig != 0, da->sig, db->sig, CCV_EOF_SIGN), ccv_sign_if(dc != 0 && da->sig != 0 && db->sig != 0 && dc->sig != 0, da->sig, db->sig, dc->sig, CCV_EOF_SIGN));
type = CCV_GET_DATA_TYPE(da->type) | CCV_GET_CHANNEL(da->type);
ccv_dense_matrix_t* dd = *d = ccv_dense_matrix_renew(*d, (transpose & CCV_A_TRANSPOSE) ? da->cols : da->rows, (transpose & CCV_B_TRANSPOSE) ? db->rows : db->cols, type, type, sig);
ccv_object_return_if_cached(, dd);
if (dd != dc && dc != 0)
memcpy(dd->data.u8, dc->data.u8, dc->step * dc->rows);
else if (dc == 0) // clean up dd if dc is not provided
memset(dd->data.u8, 0, dd->step * dd->rows);
#if (defined HAVE_CBLAS || defined HAVE_ACCELERATE_FRAMEWORK)
switch (CCV_GET_DATA_TYPE(dd->type))
{
case CCV_32F:
cblas_sgemm(CblasRowMajor, (transpose & CCV_A_TRANSPOSE) ? CblasTrans : CblasNoTrans, (transpose & CCV_B_TRANSPOSE) ? CblasTrans : CblasNoTrans, dd->rows, dd->cols, (transpose & CCV_A_TRANSPOSE) ? da->rows : da->cols, alpha, da->data.f32, da->cols, db->data.f32, db->cols, beta, dd->data.f32, dd->cols);
break;
case CCV_64F:
cblas_dgemm(CblasRowMajor, (transpose & CCV_A_TRANSPOSE) ? CblasTrans : CblasNoTrans, (transpose & CCV_B_TRANSPOSE) ? CblasTrans : CblasNoTrans, dd->rows, dd->cols, (transpose & CCV_A_TRANSPOSE) ? da->rows : da->cols, alpha, da->data.f64, da->cols, db->data.f64, db->cols, beta, dd->data.f64, dd->cols);
break;
}
#else
assert(0 && "You need a BLAS compatible library for this function, e.g. libatlas.");
#endif
}
void ccv_flatten(ccv_matrix_t* a, ccv_matrix_t** b, int type, int flag)
{
ccv_dense_matrix_t* da = ccv_get_dense_matrix(a);
ccv_declare_derived_signature(sig, da->sig != 0, ccv_sign_with_format(64, "ccv_flatten(%d)", flag), da->sig, CCV_EOF_SIGN);
int no_8u_type = (da->type & CCV_8U) ? CCV_32S : da->type;
type = (type == 0) ? CCV_GET_DATA_TYPE(no_8u_type) | CCV_C1 : CCV_GET_DATA_TYPE(type) | CCV_C1;
ccv_dense_matrix_t* db = *b = ccv_dense_matrix_renew(*b, da->rows, da->cols, CCV_ALL_DATA_TYPE | CCV_C1, type, sig);
ccv_object_return_if_cached(, db);
int i, j, k, ch = CCV_GET_CHANNEL(da->type);
unsigned char* aptr = da->data.u8;
unsigned char* bptr = db->data.u8;
#define for_block(_for_get, _for_type, _for_set) \
for (i = 0; i < da->rows; i++) \
{ \
for (j = 0; j < da->cols; j++) \
{ \
_for_type sum = 0; \
for (k = 0; k < ch; k++) \
sum += _for_get(aptr, j * ch + k, 0); \
_for_set(bptr, j, sum, 0); \
} \
aptr += da->step; \
bptr += db->step; \
}
ccv_matrix_getter(da->type, ccv_matrix_typeof_setter, db->type, for_block);
#undef for_block
}
double ccv_sum(ccv_matrix_t* mat, int flag)
{
ccv_dense_matrix_t* dmt = ccv_get_dense_matrix(mat);
double sum = 0;
unsigned char* m_ptr = dmt->data.u8;
int i, j, ch = CCV_GET_CHANNEL(dmt->type);
#define for_block(_, _for_get) \
switch (flag) \
{ \
case CCV_UNSIGNED: \
for (i = 0; i < dmt->rows; i++) \
{ \
for (j = 0; j < dmt->cols * ch; j++) \
sum += fabs((double)(_for_get(m_ptr, j, 0))); \
m_ptr += dmt->step; \
} \
break; \
case CCV_SIGNED: \
default: \
for (i = 0; i < dmt->rows; i++) \
{ \
for (j = 0; j < dmt->cols * ch; j++) \
sum += _for_get(m_ptr, j, 0); \
m_ptr += dmt->step; \
} \
}
ccv_matrix_getter(dmt->type, for_block);
#undef for_block
return sum;
}
void ccv_slice(ccv_matrix_t* a, ccv_matrix_t** b, int btype, int y, int x, int rows, int cols)
{
int type = *(int*)a;
if (type & CCV_MATRIX_DENSE)
{
ccv_dense_matrix_t* da = ccv_get_dense_matrix(a);
ccv_declare_derived_signature(sig, da->sig != 0, ccv_sign_with_format(128, "ccv_slice(%d,%d,%d,%d)", y, x, rows, cols), da->sig, CCV_EOF_SIGN);
btype = (btype == 0) ? CCV_GET_DATA_TYPE(da->type) | CCV_GET_CHANNEL(da->type) : CCV_GET_DATA_TYPE(btype) | CCV_GET_CHANNEL(da->type);
ccv_dense_matrix_t* db = *b = ccv_dense_matrix_renew(*b, rows, cols, CCV_ALL_DATA_TYPE | CCV_GET_CHANNEL(da->type), btype, sig);
ccv_object_return_if_cached(, db);
int i, j, ch = CCV_GET_CHANNEL(da->type);
int dx = 0, dy = 0;
if (!(y >= 0 && y + rows <= da->rows && x >= 0 && x + cols <= da->cols))
{
ccv_zero(db);
if (y < 0) { rows += y; dy = -y; y = 0; }
if (y + rows > da->rows) rows = da->rows - y;
if (x < 0) { cols += x; dx = -x; x = 0; }
if (x + cols > da->cols) cols = da->cols - x;
}
unsigned char* a_ptr = da->data.u8 + x * ch * CCV_GET_DATA_TYPE_SIZE(da->type) + y * da->step;
unsigned char* b_ptr = db->data.u8 + dx * ch * CCV_GET_DATA_TYPE_SIZE(db->type) + dy * db->step;
#define for_block(_for_set, _for_get) \
for (i = 0; i < rows; i++) \
{ \
for (j = 0; j < cols * ch; j++) \
{ \
_for_set(b_ptr, j, _for_get(a_ptr, j, 0), 0); \
} \
a_ptr += da->step; \
b_ptr += db->step; \
}
ccv_matrix_setter(db->type, ccv_matrix_getter, da->type, for_block);
#undef for_block
} else if (type & CCV_MATRIX_SPARSE) {
double ccv_normalize(ccv_matrix_t* a, ccv_matrix_t** b, int btype, int flag)
{
ccv_dense_matrix_t* da = ccv_get_dense_matrix(a);
assert(CCV_GET_CHANNEL(da->type) == CCV_C1);
ccv_declare_derived_signature(sig, da->sig != 0, ccv_sign_with_format(20, "ccv_normalize(%d)", flag), da->sig, CCV_EOF_SIGN);
btype = (btype == 0) ? CCV_GET_DATA_TYPE(da->type) | CCV_C1 : CCV_GET_DATA_TYPE(btype) | CCV_C1;
ccv_dense_matrix_t* db = *b = ccv_dense_matrix_renew(*b, da->rows, da->cols, CCV_ALL_DATA_TYPE | CCV_C1, btype, sig);
assert(db);
ccv_object_return_if_cached(db->tag.f64, db);
double sum = 0, inv;
int i, j;
unsigned char* a_ptr = da->data.u8;
unsigned char* b_ptr = db->data.u8;
switch (flag)
{
case CCV_L1_NORM:
#define for_block(_for_set, _for_get) \
for (i = 0; i < da->rows; i++) \
{ \
for (j = 0; j < da->cols; j++) \
sum += _for_get(a_ptr, j, 0); \
a_ptr += da->step; \
} \
inv = 1.0 / sum; \
a_ptr = da->data.u8; \
for (i = 0; i < da->rows; i++) \
{ \
for (j = 0; j < da->cols; j++) \
_for_set(b_ptr, j, _for_get(a_ptr, j, 0) * inv, 0); \
a_ptr += da->step; \
b_ptr += db->step; \
}
ccv_matrix_setter(db->type, ccv_matrix_getter, da->type, for_block);
#undef for_block
break;
case CCV_L2_NORM:
#define for_block(_for_set, _for_get) \
for (i = 0; i < da->rows; i++) \
{ \
for (j = 0; j < da->cols; j++) \
sum += _for_get(a_ptr, j, 0) * _for_get(a_ptr, j, 0); \
a_ptr += da->step; \
} \
sum = sqrt(sum); \
inv = 1.0 / sum; \
a_ptr = da->data.u8; \
for (i = 0; i < da->rows; i++) \
{ \
for (j = 0; j < da->cols; j++) \
_for_set(b_ptr, j, _for_get(a_ptr, j, 0) * inv, 0); \
a_ptr += da->step; \
b_ptr += db->step; \
}
ccv_matrix_setter(db->type, ccv_matrix_getter, da->type, for_block);
#undef for_block
break;
}
return db->tag.f64 = sum;
}
double ccv_variance(ccv_matrix_t* mat)
{
ccv_dense_matrix_t* dmt = ccv_get_dense_matrix(mat);
double mean = 0, variance = 0;
unsigned char* m_ptr = dmt->data.u8;
int i, j, ch = CCV_GET_CHANNEL(dmt->type);
#define for_block(_, _for_get) \
for (i = 0; i < dmt->rows; i++) \
{ \
for (j = 0; j < dmt->cols * ch; j++) \
{ \
mean += _for_get(m_ptr, j, 0); \
variance += _for_get(m_ptr, j, 0) * _for_get(m_ptr, j, 0); \
} \
m_ptr += dmt->step; \
}
ccv_matrix_getter(dmt->type, for_block);
#undef for_block
mean = mean / (dmt->rows * dmt->cols * ch);
variance = variance / (dmt->rows * dmt->cols * ch);
return variance - mean * mean;
}
int ccv_any_nan(ccv_matrix_t *a)
{
ccv_dense_matrix_t* da = ccv_get_dense_matrix(a);
assert((da->type & CCV_32F) || (da->type & CCV_64F));
int ch = CCV_GET_CHANNEL(da->type);
int i;
if (da->type & CCV_32F)
{
for (i = 0; i < da->rows * da->cols * ch; i++)
#ifdef isnanf
if (isnanf(da->data.f32[i]))
#else
if (isnan(da->data.f32[i]))
#endif
return i + 1;
} else {
for (i = 0; i < da->rows * da->cols * ch; i++)
if (isnan(da->data.f64[i]))
return i + 1;
}
return 0;
}
void ccv_visualize(ccv_matrix_t* a, ccv_dense_matrix_t** b, int type)
{
ccv_dense_matrix_t* da = ccv_get_dense_matrix(a);
ccv_declare_derived_signature(sig, da->sig != 0, ccv_sign_with_literal("ccv_visualize"), da->sig, CCV_EOF_SIGN);
ccv_dense_matrix_t* db = *b = ccv_dense_matrix_renew(*b, da->rows, da->cols, CCV_8U | CCV_C1, CCV_8U | CCV_C1, sig);
ccv_object_return_if_cached(, db);
ccv_dense_matrix_t* dc = 0;
if (CCV_GET_CHANNEL(da->type) > CCV_C1)
{
ccv_flatten(da, (ccv_matrix_t**)&dc, 0, 0);
da = dc;
}
int i, j;
double minval = DBL_MAX, maxval = -DBL_MAX;
unsigned char* aptr = da->data.u8;
unsigned char* bptr = db->data.u8;
#define for_block(_, _for_get) \
for (i = 0; i < da->rows; i++) \
{ \
for (j = 0; j < da->cols; j++) \
{ \
minval = ccv_min(minval, _for_get(aptr, j, 0)); \
maxval = ccv_max(maxval, _for_get(aptr, j, 0)); \
} \
aptr += da->step; \
} \
aptr = da->data.u8; \
for (i = 0; i < da->rows; i++) \
{ \
for (j = 0; j < da->cols; j++) \
bptr[j] = ccv_clamp((_for_get(aptr, j, 0) - minval) * 255.0 / (maxval - minval), 0, 255); \
aptr += da->step; \
bptr += db->step; \
}
ccv_matrix_getter(da->type, for_block);
#undef for_block
if (dc != 0)
ccv_matrix_free(dc);
}
void ccv_shift(ccv_matrix_t* a, ccv_matrix_t** b, int type, int lr, int rr)
{
ccv_dense_matrix_t* da = ccv_get_dense_matrix(a);
ccv_declare_derived_signature(sig, da->sig != 0, ccv_sign_with_format(64, "ccv_shift(%d,%d)", lr, rr), da->sig, CCV_EOF_SIGN);
type = (type == 0) ? CCV_GET_DATA_TYPE(da->type) | CCV_GET_CHANNEL(da->type) : CCV_GET_DATA_TYPE(type) | CCV_GET_CHANNEL(da->type);
ccv_dense_matrix_t* db = *b = ccv_dense_matrix_renew(*b, da->rows, da->cols, CCV_ALL_DATA_TYPE | CCV_GET_CHANNEL(da->type), type, sig);
ccv_object_return_if_cached(, db);
int i, j, ch = CCV_GET_CHANNEL(da->type);
unsigned char* aptr = da->data.u8;
unsigned char* bptr = db->data.u8;
#define for_block(_for_get, _for_set) \
for (i = 0; i < da->rows; i++) \
{ \
for (j = 0; j < da->cols * ch; j++) \
{ \
_for_set(bptr, j, _for_get(aptr, j, lr), rr); \
} \
aptr += da->step; \
bptr += db->step; \
}
ccv_matrix_getter(da->type, ccv_matrix_setter, db->type, for_block);
#undef for_block
}
void ccv_zero(ccv_matrix_t* mat)
{
ccv_dense_matrix_t* dmt = ccv_get_dense_matrix(mat);
memset(dmt->data.u8, 0, dmt->step * dmt->rows);
}
