opencv/modules/core/src/persistence.cpp

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// This file is part of OpenCV project.
// It is subject to the license terms in the LICENSE file found in the top-level directory
// of this distribution and at http://opencv.org/license.html
#include "precomp.hpp"
#include "persistence.hpp"
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#include "persistence_impl.hpp"
#include "persistence_base64_encoding.hpp"
#include <unordered_map>
#include <iterator>
namespace cv
{
namespace fs
{
int strcasecmp(const char* s1, const char* s2)
{
const char* dummy="";
if(!s1) s1=dummy;
if(!s2) s2=dummy;
size_t len1 = strlen(s1);
size_t len2 = strlen(s2);
size_t i, len = std::min(len1, len2);
for( i = 0; i < len; i++ )
{
int d = tolower((int)s1[i]) - tolower((int)s2[i]);
if( d != 0 )
return d;
}
return len1 < len2 ? -1 : len1 > len2 ? 1 : 0;
}
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char* itoa( int _val, char* buffer, int /*radix*/ )
{
const int radix = 10;
char* ptr=buffer + 23 /* enough even for 64-bit integers */;
unsigned val = abs(_val);
*ptr = '\0';
do
{
unsigned r = val / radix;
*--ptr = (char)(val - (r*radix) + '0');
val = r;
}
while( val != 0 );
if( _val < 0 )
*--ptr = '-';
return ptr;
}
char* doubleToString( char* buf, double value, bool explicitZero )
{
Cv64suf val;
unsigned ieee754_hi;
val.f = value;
ieee754_hi = (unsigned)(val.u >> 32);
if( (ieee754_hi & 0x7ff00000) != 0x7ff00000 )
{
int ivalue = cvRound(value);
if( ivalue == value )
{
if( explicitZero )
sprintf( buf, "%d.0", ivalue );
else
sprintf( buf, "%d.", ivalue );
}
else
{
static const char* fmt = "%.16e";
char* ptr = buf;
sprintf( buf, fmt, value );
if( *ptr == '+' || *ptr == '-' )
ptr++;
for( ; cv_isdigit(*ptr); ptr++ )
;
if( *ptr == ',' )
*ptr = '.';
}
}
else
{
unsigned ieee754_lo = (unsigned)val.u;
if( (ieee754_hi & 0x7fffffff) + (ieee754_lo != 0) > 0x7ff00000 )
strcpy( buf, ".Nan" );
else
strcpy( buf, (int)ieee754_hi < 0 ? "-.Inf" : ".Inf" );
}
return buf;
}
char* floatToString( char* buf, float value, bool halfprecision, bool explicitZero )
{
Cv32suf val;
unsigned ieee754;
val.f = value;
ieee754 = val.u;
if( (ieee754 & 0x7f800000) != 0x7f800000 )
{
int ivalue = cvRound(value);
if( ivalue == value )
{
if( explicitZero )
sprintf( buf, "%d.0", ivalue );
else
sprintf( buf, "%d.", ivalue );
}
else
{
char* ptr = buf;
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if (halfprecision)
sprintf(buf, "%.4e", value);
else
sprintf(buf, "%.8e", value);
if( *ptr == '+' || *ptr == '-' )
ptr++;
for( ; cv_isdigit(*ptr); ptr++ )
;
if( *ptr == ',' )
*ptr = '.';
}
}
else
{
if( (ieee754 & 0x7fffffff) != 0x7f800000 )
strcpy( buf, ".Nan" );
else
strcpy( buf, (int)ieee754 < 0 ? "-.Inf" : ".Inf" );
}
return buf;
}
static const char symbols[9] = "ucwsifdh";
static char typeSymbol(int depth)
{
CV_StaticAssert(CV_64F == 6, "");
CV_CheckDepth(depth, depth >=0 && depth <= CV_16F, "");
return symbols[depth];
}
static int symbolToType(char c)
{
if (c == 'r')
return CV_SEQ_ELTYPE_PTR;
const char* pos = strchr( symbols, c );
if( !pos )
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CV_Error( cv::Error::StsBadArg, "Invalid data type specification" );
return static_cast<int>(pos - symbols);
}
char* encodeFormat(int elem_type, char* dt)
{
int cn = (elem_type == CV_SEQ_ELTYPE_PTR/*CV_USRTYPE1*/) ? 1 : CV_MAT_CN(elem_type);
char symbol = (elem_type == CV_SEQ_ELTYPE_PTR/*CV_USRTYPE1*/) ? 'r' : typeSymbol(CV_MAT_DEPTH(elem_type));
sprintf(dt, "%d%c", cn, symbol);
return dt + (cn == 1 ? 1 : 0);
}
int decodeFormat( const char* dt, int* fmt_pairs, int max_len )
{
int fmt_pair_count = 0;
int i = 0, k = 0, len = dt ? (int)strlen(dt) : 0;
if( !dt || !len )
return 0;
CV_Assert( fmt_pairs != 0 && max_len > 0 );
fmt_pairs[0] = 0;
max_len *= 2;
for( ; k < len; k++ )
{
char c = dt[k];
if( cv_isdigit(c) )
{
int count = c - '0';
if( cv_isdigit(dt[k+1]) )
{
char* endptr = 0;
count = (int)strtol( dt+k, &endptr, 10 );
k = (int)(endptr - dt) - 1;
}
if( count <= 0 )
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CV_Error( cv::Error::StsBadArg, "Invalid data type specification" );
fmt_pairs[i] = count;
}
else
{
int depth = symbolToType(c);
if( fmt_pairs[i] == 0 )
fmt_pairs[i] = 1;
fmt_pairs[i+1] = depth;
if( i > 0 && fmt_pairs[i+1] == fmt_pairs[i-1] )
fmt_pairs[i-2] += fmt_pairs[i];
else
{
i += 2;
if( i >= max_len )
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CV_Error( cv::Error::StsBadArg, "Too long data type specification" );
}
fmt_pairs[i] = 0;
}
}
fmt_pair_count = i/2;
return fmt_pair_count;
}
int calcElemSize( const char* dt, int initial_size )
{
int size = 0;
int fmt_pairs[CV_FS_MAX_FMT_PAIRS], i, fmt_pair_count;
int comp_size;
fmt_pair_count = decodeFormat( dt, fmt_pairs, CV_FS_MAX_FMT_PAIRS );
fmt_pair_count *= 2;
for( i = 0, size = initial_size; i < fmt_pair_count; i += 2 )
{
comp_size = CV_ELEM_SIZE(fmt_pairs[i+1]);
size = cvAlign( size, comp_size );
size += comp_size * fmt_pairs[i];
}
if( initial_size == 0 )
{
comp_size = CV_ELEM_SIZE(fmt_pairs[1]);
size = cvAlign( size, comp_size );
}
return size;
}
int calcStructSize( const char* dt, int initial_size )
{
int size = calcElemSize( dt, initial_size );
size_t elem_max_size = 0;
for ( const char * type = dt; *type != '\0'; type++ )
{
char v = *type;
if (v >= '0' && v <= '9')
continue; // skip vector size
switch (v)
{
case 'u': { elem_max_size = std::max( elem_max_size, sizeof(uchar ) ); break; }
case 'c': { elem_max_size = std::max( elem_max_size, sizeof(schar ) ); break; }
case 'w': { elem_max_size = std::max( elem_max_size, sizeof(ushort) ); break; }
case 's': { elem_max_size = std::max( elem_max_size, sizeof(short ) ); break; }
case 'i': { elem_max_size = std::max( elem_max_size, sizeof(int ) ); break; }
case 'f': { elem_max_size = std::max( elem_max_size, sizeof(float ) ); break; }
case 'd': { elem_max_size = std::max( elem_max_size, sizeof(double) ); break; }
case 'h': { elem_max_size = std::max(elem_max_size, sizeof(float16_t)); break; }
default:
CV_Error_(Error::StsNotImplemented, ("Unknown type identifier: '%c' in '%s'", (char)(*type), dt));
}
}
size = cvAlign( size, static_cast<int>(elem_max_size) );
return size;
}
int decodeSimpleFormat( const char* dt )
{
int elem_type = -1;
int fmt_pairs[CV_FS_MAX_FMT_PAIRS], fmt_pair_count;
fmt_pair_count = decodeFormat( dt, fmt_pairs, CV_FS_MAX_FMT_PAIRS );
if( fmt_pair_count != 1 || fmt_pairs[0] >= CV_CN_MAX)
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CV_Error( cv::Error::StsError, "Too complex format for the matrix" );
elem_type = CV_MAKETYPE( fmt_pairs[1], fmt_pairs[0] );
return elem_type;
}
}
#if defined __i386__ || defined(_M_IX86) || defined __x86_64__ || defined(_M_X64)
#define CV_UNALIGNED_LITTLE_ENDIAN_MEM_ACCESS 1
#else
#define CV_UNALIGNED_LITTLE_ENDIAN_MEM_ACCESS 0
#endif
static inline int readInt(const uchar* p)
{
#if CV_UNALIGNED_LITTLE_ENDIAN_MEM_ACCESS
return *(const int*)p;
#else
int val = (int)(p[0] | (p[1] << 8) | (p[2] << 16) | (p[3] << 24));
return val;
#endif
}
static inline double readReal(const uchar* p)
{
#if CV_UNALIGNED_LITTLE_ENDIAN_MEM_ACCESS
return *(const double*)p;
#else
unsigned val0 = (unsigned)(p[0] | (p[1] << 8) | (p[2] << 16) | (p[3] << 24));
unsigned val1 = (unsigned)(p[4] | (p[5] << 8) | (p[6] << 16) | (p[7] << 24));
Cv64suf val;
val.u = val0 | ((uint64)val1 << 32);
return val.f;
#endif
}
static inline void writeInt(uchar* p, int ival)
{
#if CV_UNALIGNED_LITTLE_ENDIAN_MEM_ACCESS
int* ip = (int*)p;
*ip = ival;
#else
p[0] = (uchar)ival;
p[1] = (uchar)(ival >> 8);
p[2] = (uchar)(ival >> 16);
p[3] = (uchar)(ival >> 24);
#endif
}
static inline void writeReal(uchar* p, double fval)
{
#if CV_UNALIGNED_LITTLE_ENDIAN_MEM_ACCESS
double* fp = (double*)p;
*fp = fval;
#else
Cv64suf v;
v.f = fval;
p[0] = (uchar)v.u;
p[1] = (uchar)(v.u >> 8);
p[2] = (uchar)(v.u >> 16);
p[3] = (uchar)(v.u >> 24);
p[4] = (uchar)(v.u >> 32);
p[5] = (uchar)(v.u >> 40);
p[6] = (uchar)(v.u >> 48);
p[7] = (uchar)(v.u >> 56);
#endif
}
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void FileStorage::Impl::init() {
flags = 0;
buffer.clear();
bufofs = 0;
state = UNDEFINED;
is_using_base64 = false;
state_of_writing_base64 = FileStorage_API::Base64State::Uncertain;
is_write_struct_delayed = false;
delayed_struct_key = nullptr;
delayed_struct_flags = 0;
delayed_type_name = nullptr;
base64_writer = nullptr;
is_opened = false;
dummy_eof = false;
write_mode = false;
mem_mode = false;
space = 0;
wrap_margin = 71;
fmt = 0;
file = 0;
gzfile = 0;
empty_stream = true;
strbufv.clear();
strbuf = 0;
strbufsize = strbufpos = 0;
roots.clear();
fs_data.clear();
fs_data_ptrs.clear();
fs_data_blksz.clear();
freeSpaceOfs = 0;
str_hash.clear();
str_hash_data.clear();
str_hash_data.resize(1);
str_hash_data[0] = '\0';
filename.clear();
lineno = 0;
}
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FileStorage::Impl::Impl(FileStorage *_fs) {
fs_ext = _fs;
init();
}
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FileStorage::Impl::~Impl() {
release();
}
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void FileStorage::Impl::release(String *out) {
if (is_opened) {
if (out)
out->clear();
if (write_mode) {
while (write_stack.size() > 1) {
endWriteStruct();
}
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flush();
if (fmt == FileStorage::FORMAT_XML)
puts("</opencv_storage>\n");
else if (fmt == FileStorage::FORMAT_JSON)
puts("}\n");
}
if (mem_mode && out) {
*out = cv::String(outbuf.begin(), outbuf.end());
}
}
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closeFile();
init();
}
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void FileStorage::Impl::analyze_file_name(const std::string &file_name, std::vector<std::string> &params) {
params.clear();
static const char not_file_name = '\n';
static const char parameter_begin = '?';
static const char parameter_separator = '&';
if (file_name.find(not_file_name, (size_t) 0) != std::string::npos)
return;
size_t beg = file_name.find_last_of(parameter_begin);
params.push_back(file_name.substr((size_t) 0, beg));
if (beg != std::string::npos) {
size_t end = file_name.size();
beg++;
for (size_t param_beg = beg, param_end = beg;
param_end < end;
param_beg = param_end + 1) {
param_end = file_name.find_first_of(parameter_separator, param_beg);
if ((param_end == std::string::npos || param_end != param_beg) && param_beg + 1 < end) {
params.push_back(file_name.substr(param_beg, param_end - param_beg));
}
}
}
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}
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bool FileStorage::Impl::open(const char *filename_or_buf, int _flags, const char *encoding) {
bool ok = true;
release();
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bool append = (_flags & 3) == FileStorage::APPEND;
mem_mode = (_flags & FileStorage::MEMORY) != 0;
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write_mode = (_flags & 3) != 0;
bool write_base64 = (write_mode || append) && (_flags & FileStorage::BASE64) != 0;
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bool isGZ = false;
size_t fnamelen = 0;
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std::vector<std::string> params;
//if ( !mem_mode )
{
analyze_file_name(filename_or_buf, params);
if (!params.empty())
filename = params[0];
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if (!write_base64 && params.size() >= 2 &&
std::find(params.begin() + 1, params.end(), std::string("base64")) != params.end())
write_base64 = (write_mode || append);
}
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if (filename.size() == 0 && !mem_mode && !write_mode)
CV_Error(cv::Error::StsNullPtr, "NULL or empty filename");
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if (mem_mode && append)
CV_Error(cv::Error::StsBadFlag, "FileStorage::APPEND and FileStorage::MEMORY are not currently compatible");
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flags = _flags;
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if (!mem_mode) {
char *dot_pos = strrchr((char *) filename.c_str(), '.');
char compression = '\0';
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if (dot_pos && dot_pos[1] == 'g' && dot_pos[2] == 'z' &&
(dot_pos[3] == '\0' || (cv_isdigit(dot_pos[3]) && dot_pos[4] == '\0'))) {
if (append) {
CV_Error(cv::Error::StsNotImplemented, "Appending data to compressed file is not implemented");
}
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isGZ = true;
compression = dot_pos[3];
if (compression)
dot_pos[3] = '\0', fnamelen--;
}
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if (!isGZ) {
file = fopen(filename.c_str(), !write_mode ? "rt" : !append ? "wt" : "a+t");
if (!file)
return false;
} else {
#if USE_ZLIB
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char mode[] = {write_mode ? 'w' : 'r', 'b', compression ? compression : '3', '\0'};
gzfile = gzopen(filename.c_str(), mode);
if (!gzfile)
return false;
#else
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CV_Error(cv::Error::StsNotImplemented, "There is no compressed file storage support in this configuration");
#endif
}
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}
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roots.clear();
fs_data.clear();
wrap_margin = 71;
fmt = FileStorage::FORMAT_AUTO;
if (write_mode) {
fmt = flags & FileStorage::FORMAT_MASK;
if (mem_mode)
outbuf.clear();
if (fmt == FileStorage::FORMAT_AUTO && !filename.empty()) {
const char *dot_pos = NULL;
const char *dot_pos2 = NULL;
// like strrchr() implementation, but save two last positions simultaneously
for (const char *pos = &filename[0]; pos[0] != 0; pos++) {
if (pos[0] == '.') {
dot_pos2 = dot_pos;
dot_pos = pos;
}
}
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if (fs::strcasecmp(dot_pos, ".gz") == 0 && dot_pos2 != NULL) {
dot_pos = dot_pos2;
}
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fmt = (fs::strcasecmp(dot_pos, ".xml") == 0 || fs::strcasecmp(dot_pos, ".xml.gz") == 0)
? FileStorage::FORMAT_XML
: (fs::strcasecmp(dot_pos, ".json") == 0 || fs::strcasecmp(dot_pos, ".json.gz") == 0)
? FileStorage::FORMAT_JSON
: FileStorage::FORMAT_YAML;
} else if (fmt == FileStorage::FORMAT_AUTO) {
fmt = FileStorage::FORMAT_XML;
}
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// we use factor=6 for XML (the longest characters (' and ") are encoded with 6 bytes (&apos; and &quot;)
// and factor=4 for YAML ( as we use 4 bytes for non ASCII characters (e.g. \xAB))
int buf_size = CV_FS_MAX_LEN * (fmt == FileStorage::FORMAT_XML ? 6 : 4) + 1024;
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if (append) {
fseek(file, 0, SEEK_END);
if (ftell(file) == 0)
append = false;
}
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write_stack.clear();
empty_stream = true;
write_stack.push_back(FStructData("", FileNode::MAP | FileNode::EMPTY, 0));
buffer.reserve(buf_size + 1024);
buffer.resize(buf_size);
bufofs = 0;
is_using_base64 = write_base64;
state_of_writing_base64 = FileStorage_API::Base64State::Uncertain;
if (fmt == FileStorage::FORMAT_XML) {
size_t file_size = file ? (size_t) ftell(file) : (size_t) 0;
if (!append || file_size == 0) {
if (encoding && *encoding != '\0') {
if (fs::strcasecmp(encoding, "UTF-16") == 0) {
release();
CV_Error(cv::Error::StsBadArg, "UTF-16 XML encoding is not supported! Use 8-bit encoding\n");
}
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CV_Assert(strlen(encoding) < 1000);
char buf[1100];
sprintf(buf, "<?xml version=\"1.0\" encoding=\"%s\"?>\n", encoding);
puts(buf);
} else
puts("<?xml version=\"1.0\"?>\n");
puts("<opencv_storage>\n");
} else {
int xml_buf_size = 1 << 10;
char substr[] = "</opencv_storage>";
int last_occurrence = -1;
xml_buf_size = MIN(xml_buf_size, int(file_size));
fseek(file, -xml_buf_size, SEEK_END);
// find the last occurrence of </opencv_storage>
for (;;) {
int line_offset = (int) ftell(file);
const char *ptr0 = this->gets(xml_buf_size);
const char *ptr = NULL;
if (!ptr0)
break;
ptr = ptr0;
for (;;) {
ptr = strstr(ptr, substr);
if (!ptr)
break;
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last_occurrence = line_offset + (int) (ptr - ptr0);
ptr += strlen(substr);
}
}
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if (last_occurrence < 0) {
release();
CV_Error(cv::Error::StsError, "Could not find </opencv_storage> in the end of file.\n");
}
closeFile();
file = fopen(filename.c_str(), "r+t");
CV_Assert(file != 0);
fseek(file, last_occurrence, SEEK_SET);
// replace the last "</opencv_storage>" with " <!-- resumed -->", which has the same length
puts(" <!-- resumed -->");
fseek(file, 0, SEEK_END);
puts("\n");
}
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emitter = createXMLEmitter(this);
} else if (fmt == FileStorage::FORMAT_YAML) {
if (!append)
puts("%YAML:1.0\n---\n");
else
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puts("...\n---\n");
emitter = createYAMLEmitter(this);
} else {
CV_Assert(fmt == FileStorage::FORMAT_JSON);
if (!append)
puts("{\n");
else {
bool valid = false;
long roffset = 0;
for (;
fseek(file, roffset, SEEK_END) == 0;
roffset -= 1) {
const char end_mark = '}';
if (fgetc(file) == end_mark) {
fseek(file, roffset, SEEK_END);
valid = true;
break;
}
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}
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if (valid) {
closeFile();
file = fopen(filename.c_str(), "r+t");
CV_Assert(file != 0);
fseek(file, roffset, SEEK_END);
fputs(",", file);
} else {
CV_Error(cv::Error::StsError, "Could not find '}' in the end of file.\n");
}
}
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write_stack.back().indent = 4;
emitter = createJSONEmitter(this);
}
is_opened = true;
} else {
const size_t buf_size0 = 40;
buffer.resize(buf_size0);
if (mem_mode) {
strbuf = (char *) filename_or_buf;
strbufsize = strlen(strbuf);
}
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const char *yaml_signature = "%YAML";
const char *json_signature = "{";
const char *xml_signature = "<?xml";
char *buf = this->gets(16);
CV_Assert(buf);
char *bufPtr = cv_skip_BOM(buf);
size_t bufOffset = bufPtr - buf;
if (strncmp(bufPtr, yaml_signature, strlen(yaml_signature)) == 0)
fmt = FileStorage::FORMAT_YAML;
else if (strncmp(bufPtr, json_signature, strlen(json_signature)) == 0)
fmt = FileStorage::FORMAT_JSON;
else if (strncmp(bufPtr, xml_signature, strlen(xml_signature)) == 0)
fmt = FileStorage::FORMAT_XML;
else if (strbufsize == bufOffset)
CV_Error(cv::Error::StsBadArg, "Input file is invalid");
else
CV_Error(cv::Error::StsBadArg, "Unsupported file storage format");
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rewind();
strbufpos = bufOffset;
bufofs = 0;
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try {
char *ptr = bufferStart();
ptr[0] = ptr[1] = ptr[2] = '\0';
FileNode root_nodes(fs_ext, 0, 0);
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uchar *rptr = reserveNodeSpace(root_nodes, 9);
*rptr = FileNode::SEQ;
writeInt(rptr + 1, 4);
writeInt(rptr + 5, 0);
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roots.clear();
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switch (fmt) {
case FileStorage::FORMAT_XML:
parser = createXMLParser(this);
break;
case FileStorage::FORMAT_YAML:
parser = createYAMLParser(this);
break;
case FileStorage::FORMAT_JSON:
parser = createJSONParser(this);
break;
default:
parser = Ptr<FileStorageParser>();
}
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if (!parser.empty()) {
ok = parser->parse(ptr);
if (ok) {
finalizeCollection(root_nodes);
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CV_Assert(!fs_data_ptrs.empty());
FileNode roots_node(fs_ext, 0, 0);
size_t i, nroots = roots_node.size();
FileNodeIterator it = roots_node.begin();
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for (i = 0; i < nroots; i++, ++it)
roots.push_back(*it);
}
}
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}
catch (...) {
is_opened = true;
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release();
throw;
}
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// release resources that we do not need anymore
closeFile();
is_opened = true;
std::vector<char> tmpbuf;
std::swap(buffer, tmpbuf);
bufofs = 0;
}
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return ok;
}
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void FileStorage::Impl::puts(const char *str) {
CV_Assert(write_mode);
if (mem_mode)
std::copy(str, str + strlen(str), std::back_inserter(outbuf));
else if (file)
fputs(str, file);
#if USE_ZLIB
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else if (gzfile)
gzputs(gzfile, str);
#endif
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else
CV_Error(cv::Error::StsError, "The storage is not opened");
}
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char *FileStorage::Impl::getsFromFile(char *buf, int count) {
if (file)
return fgets(buf, count, file);
#if USE_ZLIB
if (gzfile)
return gzgets(gzfile, buf, count);
#endif
CV_Error(cv::Error::StsError, "The storage is not opened");
}
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char *FileStorage::Impl::gets(size_t maxCount) {
if (strbuf) {
size_t i = strbufpos, len = strbufsize;
const char *instr = strbuf;
for (; i < len; i++) {
char c = instr[i];
if (c == '\0' || c == '\n') {
if (c == '\n')
i++;
break;
}
}
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size_t count = i - strbufpos;
if (maxCount == 0 || maxCount > count)
maxCount = count;
buffer.resize(std::max(buffer.size(), maxCount + 8));
memcpy(&buffer[0], instr + strbufpos, maxCount);
buffer[maxCount] = '\0';
strbufpos = i;
return maxCount > 0 ? &buffer[0] : 0;
}
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const size_t MAX_BLOCK_SIZE = INT_MAX / 2; // hopefully, that will be enough
if (maxCount == 0)
maxCount = MAX_BLOCK_SIZE;
else
CV_Assert(maxCount < MAX_BLOCK_SIZE);
size_t ofs = 0;
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for (;;) {
int count = (int) std::min(buffer.size() - ofs - 16, maxCount);
char *ptr = getsFromFile(&buffer[ofs], count + 1);
if (!ptr)
break;
int delta = (int) strlen(ptr);
ofs += delta;
maxCount -= delta;
if (ptr[delta - 1] == '\n' || maxCount == 0)
break;
if (delta == count)
buffer.resize((size_t) (buffer.size() * 1.5));
}
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return ofs > 0 ? &buffer[0] : 0;
}
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char *FileStorage::Impl::gets() {
char *ptr = this->gets(0);
if (!ptr) {
ptr = bufferStart(); // FIXIT Why do we need this hack? What is about other parsers JSON/YAML?
*ptr = '\0';
setEof();
return 0;
} else {
size_t l = strlen(ptr);
if (l > 0 && ptr[l - 1] != '\n' && ptr[l - 1] != '\r' && !eof()) {
ptr[l] = '\n';
ptr[l + 1] = '\0';
}
}
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lineno++;
return ptr;
}
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bool FileStorage::Impl::eof() {
if (dummy_eof)
return true;
if (strbuf)
return strbufpos >= strbufsize;
if (file)
return feof(file) != 0;
#if USE_ZLIB
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if (gzfile)
return gzeof(gzfile) != 0;
#endif
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return false;
}
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void FileStorage::Impl::setEof() {
dummy_eof = true;
}
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void FileStorage::Impl::closeFile() {
if (file)
fclose(file);
#if USE_ZLIB
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else if (gzfile)
gzclose(gzfile);
#endif
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file = 0;
gzfile = 0;
strbuf = 0;
strbufpos = 0;
is_opened = false;
}
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void FileStorage::Impl::rewind() {
if (file)
::rewind(file);
#if USE_ZLIB
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else if (gzfile)
gzrewind(gzfile);
#endif
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strbufpos = 0;
}
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char *FileStorage::Impl::resizeWriteBuffer(char *ptr, int len) {
const char *buffer_end = &buffer[0] + buffer.size();
if (ptr + len < buffer_end)
return ptr;
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const char *buffer_start = &buffer[0];
int written_len = (int) (ptr - buffer_start);
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CV_Assert(written_len <= (int) buffer.size());
int new_size = (int) ((buffer_end - buffer_start) * 3 / 2);
new_size = MAX(written_len + len, new_size);
buffer.reserve(new_size + 256);
buffer.resize(new_size);
bufofs = written_len;
return &buffer[0] + bufofs;
}
char *FileStorage::Impl::flush() {
char *buffer_start = &buffer[0];
char *ptr = buffer_start + bufofs;
if (ptr > buffer_start + space) {
ptr[0] = '\n';
ptr[1] = '\0';
puts(buffer_start);
bufofs = 0;
}
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int indent = write_stack.back().indent;
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if (space != indent) {
memset(buffer_start, ' ', indent);
space = indent;
}
bufofs = space;
ptr = buffer_start + bufofs;
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return ptr;
}
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void FileStorage::Impl::endWriteStruct() {
CV_Assert(write_mode);
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check_if_write_struct_is_delayed(false);
if (state_of_writing_base64 != FileStorage_API::Uncertain)
switch_to_Base64_state(FileStorage_API::Uncertain);
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CV_Assert(!write_stack.empty());
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FStructData &current_struct = write_stack.back();
if (fmt == FileStorage::FORMAT_JSON && !FileNode::isFlow(current_struct.flags) && write_stack.size() > 1)
current_struct.indent = write_stack[write_stack.size() - 2].indent;
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emitter->endWriteStruct(current_struct);
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write_stack.pop_back();
if (!write_stack.empty())
write_stack.back().flags &= ~FileNode::EMPTY;
}
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void FileStorage::Impl::startWriteStruct_helper(const char *key, int struct_flags,
const char *type_name) {
CV_Assert(write_mode);
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struct_flags = (struct_flags & (FileNode::TYPE_MASK | FileNode::FLOW)) | FileNode::EMPTY;
if (!FileNode::isCollection(struct_flags))
CV_Error(cv::Error::StsBadArg,
"Some collection type: FileNode::SEQ or FileNode::MAP must be specified");
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if (type_name && type_name[0] == '\0')
type_name = 0;
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FStructData s = emitter->startWriteStruct(write_stack.back(), key, struct_flags, type_name);
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write_stack.push_back(s);
size_t write_stack_size = write_stack.size();
if (write_stack_size > 1)
write_stack[write_stack_size - 2].flags &= ~FileNode::EMPTY;
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if (fmt != FileStorage::FORMAT_JSON && !FileNode::isFlow(s.flags))
flush();
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if (fmt == FileStorage::FORMAT_JSON && type_name && type_name[0] && FileNode::isMap(struct_flags)) {
emitter->write("type_id", type_name, false);
}
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}
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void FileStorage::Impl::startWriteStruct(const char *key, int struct_flags,
const char *type_name) {
check_if_write_struct_is_delayed(false);
if (state_of_writing_base64 == FileStorage_API::NotUse)
switch_to_Base64_state(FileStorage_API::Uncertain);
if (state_of_writing_base64 == FileStorage_API::Uncertain && FileNode::isSeq(struct_flags)
&& is_using_base64 && type_name == 0) {
/* Uncertain whether output Base64 data */
make_write_struct_delayed(key, struct_flags, type_name);
} else if (type_name && memcmp(type_name, "binary", 6) == 0) {
/* Must output Base64 data */
if ((FileNode::TYPE_MASK & struct_flags) != FileNode::SEQ)
CV_Error(cv::Error::StsBadArg, "must set 'struct_flags |= CV_NODE_SEQ' if using Base64.");
else if (state_of_writing_base64 != FileStorage_API::Uncertain)
CV_Error(cv::Error::StsError, "function \'cvStartWriteStruct\' calls cannot be nested if using Base64.");
startWriteStruct_helper(key, struct_flags, "binary");
if (state_of_writing_base64 != FileStorage_API::Uncertain)
switch_to_Base64_state(FileStorage_API::Uncertain);
switch_to_Base64_state(FileStorage_API::InUse);
} else {
/* Won't output Base64 data */
if (state_of_writing_base64 == FileStorage_API::InUse)
CV_Error(cv::Error::StsError, "At the end of the output Base64, `cvEndWriteStruct` is needed.");
startWriteStruct_helper(key, struct_flags, type_name);
if (state_of_writing_base64 != FileStorage_API::Uncertain)
switch_to_Base64_state(FileStorage_API::Uncertain);
switch_to_Base64_state(FileStorage_API::NotUse);
}
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}
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void FileStorage::Impl::writeComment(const char *comment, bool eol_comment) {
CV_Assert(write_mode);
emitter->writeComment(comment, eol_comment);
}
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void FileStorage::Impl::startNextStream() {
CV_Assert(write_mode);
if (!empty_stream) {
while (!write_stack.empty())
endWriteStruct();
flush();
emitter->startNextStream();
empty_stream = true;
write_stack.push_back(FStructData("", FileNode::EMPTY, 0));
bufofs = 0;
}
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}
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void FileStorage::Impl::write(const String &key, int value) {
CV_Assert(write_mode);
emitter->write(key.c_str(), value);
}
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void FileStorage::Impl::write(const String &key, double value) {
CV_Assert(write_mode);
emitter->write(key.c_str(), value);
}
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void FileStorage::Impl::write(const String &key, const String &value) {
CV_Assert(write_mode);
emitter->write(key.c_str(), value.c_str(), false);
}
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void FileStorage::Impl::writeRawData(const std::string &dt, const void *_data, size_t len) {
CV_Assert(write_mode);
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if (is_using_base64 || state_of_writing_base64 == FileStorage_API::Base64State::InUse) {
writeRawDataBase64(_data, len, dt.c_str());
return;
} else if (state_of_writing_base64 == FileStorage_API::Base64State::Uncertain) {
switch_to_Base64_state(FileStorage_API::Base64State::NotUse);
}
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size_t elemSize = fs::calcStructSize(dt.c_str(), 0);
CV_Assert(elemSize);
CV_Assert(len % elemSize == 0);
len /= elemSize;
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bool explicitZero = fmt == FileStorage::FORMAT_JSON;
const uchar *data0 = (const uchar *) _data;
int fmt_pairs[CV_FS_MAX_FMT_PAIRS * 2], k, fmt_pair_count;
char buf[256] = "";
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fmt_pair_count = fs::decodeFormat(dt.c_str(), fmt_pairs, CV_FS_MAX_FMT_PAIRS);
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if (!len)
return;
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if (!data0)
CV_Error(cv::Error::StsNullPtr, "Null data pointer");
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if (fmt_pair_count == 1) {
fmt_pairs[0] *= (int) len;
len = 1;
}
for (; len--; data0 += elemSize) {
int offset = 0;
for (k = 0; k < fmt_pair_count; k++) {
int i, count = fmt_pairs[k * 2];
int elem_type = fmt_pairs[k * 2 + 1];
int elem_size = CV_ELEM_SIZE(elem_type);
const char *ptr;
offset = cvAlign(offset, elem_size);
const uchar *data = data0 + offset;
for (i = 0; i < count; i++) {
switch (elem_type) {
case CV_8U:
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ptr = fs::itoa(*(uchar *) data, buf, 10);
data++;
break;
case CV_8S:
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ptr = fs::itoa(*(char *) data, buf, 10);
data++;
break;
case CV_16U:
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ptr = fs::itoa(*(ushort *) data, buf, 10);
data += sizeof(ushort);
break;
case CV_16S:
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ptr = fs::itoa(*(short *) data, buf, 10);
data += sizeof(short);
break;
case CV_32S:
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ptr = fs::itoa(*(int *) data, buf, 10);
data += sizeof(int);
break;
case CV_32F:
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ptr = fs::floatToString(buf, *(float *) data, false, explicitZero);
data += sizeof(float);
break;
case CV_64F:
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ptr = fs::doubleToString(buf, *(double *) data, explicitZero);
data += sizeof(double);
break;
case CV_16F: /* reference */
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ptr = fs::floatToString(buf, (float) *(float16_t *) data, true, explicitZero);
data += sizeof(float16_t);
break;
default:
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CV_Error(cv::Error::StsUnsupportedFormat, "Unsupported type");
return;
}
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emitter->writeScalar(0, ptr);
}
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offset = (int) (data - data0);
}
}
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}
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void FileStorage::Impl::workaround() {
check_if_write_struct_is_delayed(false);
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if (state_of_writing_base64 != FileStorage_API::Base64State::Uncertain)
switch_to_Base64_state(FileStorage_API::Base64State::Uncertain);
}
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void FileStorage::Impl::switch_to_Base64_state(FileStorage_API::Base64State new_state) {
const char *err_unkonwn_state = "Unexpected error, unable to determine the Base64 state.";
const char *err_unable_to_switch = "Unexpected error, unable to switch to this state.";
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/* like a finite state machine */
switch (state_of_writing_base64) {
case FileStorage_API::Base64State::Uncertain:
switch (new_state) {
case FileStorage_API::Base64State::InUse:
{
CV_DbgAssert(base64_writer == 0);
bool can_indent = (fmt != cv::FileStorage::Mode::FORMAT_JSON);
base64_writer = new base64::Base64Writer(*this, can_indent);
if (!can_indent) {
char *ptr = bufferPtr();
*ptr++ = '\0';
puts(bufferStart());
setBufferPtr(bufferStart());
memset(bufferStart(), 0, static_cast<int>(space));
puts("\"$base64$");
}
break;
}
case FileStorage_API::Base64State::Uncertain:
break;
case FileStorage_API::Base64State::NotUse:
break;
default:
CV_Error(cv::Error::StsError, err_unkonwn_state);
break;
}
break;
case FileStorage_API::Base64State::InUse:
switch (new_state) {
case FileStorage_API::Base64State::InUse:
case FileStorage_API::Base64State::NotUse:
CV_Error(cv::Error::StsError, err_unable_to_switch);
break;
case FileStorage_API::Base64State::Uncertain:
delete base64_writer;
base64_writer = 0;
if ( fmt == cv::FileStorage::FORMAT_JSON )
{
puts("\"");
setBufferPtr(bufferStart());
flush();
memset(bufferStart(), 0, static_cast<int>(space) );
setBufferPtr(bufferStart());
}
break;
default:
CV_Error(cv::Error::StsError, err_unkonwn_state);
break;
}
break;
case FileStorage_API::Base64State::NotUse:
switch (new_state) {
case FileStorage_API::Base64State::InUse:
case FileStorage_API::Base64State::NotUse:
CV_Error(cv::Error::StsError, err_unable_to_switch);
break;
case FileStorage_API::Base64State::Uncertain:
break;
default:
CV_Error(cv::Error::StsError, err_unkonwn_state);
break;
}
break;
default:
CV_Error(cv::Error::StsError, err_unkonwn_state);
break;
}
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state_of_writing_base64 = new_state;
}
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void FileStorage::Impl::make_write_struct_delayed(const char *key, int struct_flags, const char *type_name) {
CV_Assert(is_write_struct_delayed == false);
CV_DbgAssert(delayed_struct_key == nullptr);
CV_DbgAssert(delayed_struct_flags == 0);
CV_DbgAssert(delayed_type_name == nullptr);
delayed_struct_flags = struct_flags;
if (key != nullptr) {
delayed_struct_key = new char[strlen(key) + 1U];
strcpy(delayed_struct_key, key);
}
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if (type_name != nullptr) {
delayed_type_name = new char[strlen(type_name) + 1U];
strcpy(delayed_type_name, type_name);
}
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is_write_struct_delayed = true;
}
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void FileStorage::Impl::check_if_write_struct_is_delayed(bool change_type_to_base64) {
if (is_write_struct_delayed) {
/* save data to prevent recursive call errors */
std::string struct_key;
std::string type_name;
int struct_flags = delayed_struct_flags;
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if (delayed_struct_key != nullptr && *delayed_struct_key != '\0') {
struct_key.assign(delayed_struct_key);
}
if (delayed_type_name != nullptr && *delayed_type_name != '\0') {
type_name.assign(delayed_type_name);
}
/* reset */
delete[] delayed_struct_key;
delete[] delayed_type_name;
delayed_struct_key = nullptr;
delayed_struct_flags = 0;
delayed_type_name = nullptr;
is_write_struct_delayed = false;
/* call */
if (change_type_to_base64) {
startWriteStruct_helper(struct_key.c_str(), struct_flags, "binary");
if (state_of_writing_base64 != FileStorage_API::Uncertain)
switch_to_Base64_state(FileStorage_API::Uncertain);
switch_to_Base64_state(FileStorage_API::InUse);
} else {
startWriteStruct_helper(struct_key.c_str(), struct_flags, type_name.c_str());
if (state_of_writing_base64 != FileStorage_API::Uncertain)
switch_to_Base64_state(FileStorage_API::Uncertain);
switch_to_Base64_state(FileStorage_API::NotUse);
}
}
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}
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void FileStorage::Impl::writeRawDataBase64(const void *_data, size_t len, const char *dt) {
CV_Assert(write_mode);
check_if_write_struct_is_delayed(true);
if (state_of_writing_base64 == FileStorage_API::Base64State::Uncertain) {
switch_to_Base64_state(FileStorage_API::Base64State::InUse);
} else if (state_of_writing_base64 != FileStorage_API::Base64State::InUse) {
CV_Error(cv::Error::StsError, "Base64 should not be used at present.");
}
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base64_writer->write(_data, len, dt);
}
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FileNode FileStorage::Impl::getFirstTopLevelNode() const {
return roots.empty() ? FileNode() : roots[0];
}
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FileNode FileStorage::Impl::root(int streamIdx) const {
return streamIdx >= 0 && streamIdx < (int) roots.size() ? roots[streamIdx] : FileNode();
}
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FileNode FileStorage::Impl::operator[](const String &nodename) const {
return this->operator[](nodename.c_str());
}
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FileNode FileStorage::Impl::operator[](const char * /*nodename*/) const {
return FileNode();
}
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int FileStorage::Impl::getFormat() const { return fmt; }
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char *FileStorage::Impl::bufferPtr() const { return (char *) (&buffer[0] + bufofs); }
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char *FileStorage::Impl::bufferStart() const { return (char *) &buffer[0]; }
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char *FileStorage::Impl::bufferEnd() const { return (char *) (&buffer[0] + buffer.size()); }
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void FileStorage::Impl::setBufferPtr(char *ptr) {
char *bufferstart = bufferStart();
CV_Assert(ptr >= bufferstart && ptr <= bufferEnd());
bufofs = ptr - bufferstart;
}
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int FileStorage::Impl::wrapMargin() const { return wrap_margin; }
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FStructData &FileStorage::Impl::getCurrentStruct() {
CV_Assert(!write_stack.empty());
return write_stack.back();
}
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void FileStorage::Impl::setNonEmpty() {
empty_stream = false;
}
void FileStorage::Impl::processSpecialDouble(char *buf, double *value, char **endptr) {
FileStorage_API *fs = this;
char c = buf[0];
int inf_hi = 0x7ff00000;
if (c == '-' || c == '+') {
inf_hi = c == '-' ? 0xfff00000 : 0x7ff00000;
c = *++buf;
}
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if (c != '.')
CV_PARSE_ERROR_CPP("Bad format of floating-point constant");
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Cv64suf v;
v.f = 0.;
if (toupper(buf[1]) == 'I' && toupper(buf[2]) == 'N' && toupper(buf[3]) == 'F')
v.u = (uint64) inf_hi << 32;
else if (toupper(buf[1]) == 'N' && toupper(buf[2]) == 'A' && toupper(buf[3]) == 'N')
v.u = (uint64) -1;
else
CV_PARSE_ERROR_CPP("Bad format of floating-point constant");
*value = v.f;
*endptr = buf + 4;
}
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double FileStorage::Impl::strtod(char *ptr, char **endptr) {
double fval = ::strtod(ptr, endptr);
if (**endptr == '.') {
char *dot_pos = *endptr;
*dot_pos = ',';
double fval2 = ::strtod(ptr, endptr);
*dot_pos = '.';
if (*endptr > dot_pos)
fval = fval2;
else
*endptr = dot_pos;
}
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if (*endptr == ptr || cv_isalpha(**endptr))
processSpecialDouble(ptr, &fval, endptr);
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return fval;
}
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void FileStorage::Impl::convertToCollection(int type, FileNode &node) {
CV_Assert(type == FileNode::SEQ || type == FileNode::MAP);
int node_type = node.type();
if (node_type == type)
return;
bool named = node.isNamed();
uchar *ptr = node.ptr() + 1 + (named ? 4 : 0);
int ival = 0;
double fval = 0;
std::string sval;
bool add_first_scalar = false;
if (node_type != FileNode::NONE) {
// scalar nodes can only be converted to sequences, e.g. in XML:
// <a>5[parser_position]... => create 5 with name "a"
// <a>5 6[parser_position]... => 5 is converted to [5] and then 6 is added to it
//
// otherwise we don't know where to get the element names from
CV_Assert(type == FileNode::SEQ);
if (node_type == FileNode::INT) {
ival = readInt(ptr);
add_first_scalar = true;
} else if (node_type == FileNode::REAL) {
fval = readReal(ptr);
add_first_scalar = true;
} else if (node_type == FileNode::STRING) {
sval = std::string(node);
add_first_scalar = true;
} else
CV_Error_(Error::StsError, ("The node of type %d cannot be converted to collection", node_type));
}
ptr = reserveNodeSpace(node, 1 + (named ? 4 : 0) + 4 + 4);
*ptr++ = (uchar) (type | (named ? FileNode::NAMED : 0));
// name has been copied automatically
if (named)
ptr += 4;
// set raw_size(collection)==4, nelems(collection)==1
writeInt(ptr, 4);
writeInt(ptr + 4, 0);
if (add_first_scalar)
addNode(node, std::string(), node_type,
node_type == FileNode::INT ? (const void *) &ival :
node_type == FileNode::REAL ? (const void *) &fval :
node_type == FileNode::STRING ? (const void *) sval.c_str() : 0,
-1);
}
// a) allocates new FileNode (for that just set blockIdx to the last block and ofs to freeSpaceOfs) or
// b) reallocates just created new node (blockIdx and ofs must be taken from FileNode).
// If there is no enough space in the current block (it should be the last block added so far),
// the last block is shrunk so that it ends immediately before the reallocated node. Then,
// a new block of sufficient size is allocated and the FileNode is placed in the beginning of it.
// The case (a) can be used to allocate the very first node by setting blockIdx == ofs == 0.
// In the case (b) the existing tag and the name are copied automatically.
uchar *FileStorage::Impl::reserveNodeSpace(FileNode &node, size_t sz) {
bool shrinkBlock = false;
size_t shrinkBlockIdx = 0, shrinkSize = 0;
uchar *ptr = 0, *blockEnd = 0;
if (!fs_data_ptrs.empty()) {
size_t blockIdx = node.blockIdx;
size_t ofs = node.ofs;
CV_Assert(blockIdx == fs_data_ptrs.size() - 1);
CV_Assert(ofs <= fs_data_blksz[blockIdx]);
CV_Assert(freeSpaceOfs <= fs_data_blksz[blockIdx]);
//CV_Assert( freeSpaceOfs <= ofs + sz );
ptr = fs_data_ptrs[blockIdx] + ofs;
blockEnd = fs_data_ptrs[blockIdx] + fs_data_blksz[blockIdx];
CV_Assert(ptr >= fs_data_ptrs[blockIdx] && ptr <= blockEnd);
if (ptr + sz <= blockEnd) {
freeSpaceOfs = ofs + sz;
return ptr;
}
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if (ofs ==
0) // FileNode is a first component of this block. Resize current block instead of allocation of new one.
{
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fs_data[blockIdx]->resize(sz);
ptr = &fs_data[blockIdx]->at(0);
fs_data_ptrs[blockIdx] = ptr;
fs_data_blksz[blockIdx] = sz;
freeSpaceOfs = sz;
return ptr;
}
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shrinkBlock = true;
shrinkBlockIdx = blockIdx;
shrinkSize = ofs;
}
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size_t blockSize = std::max((size_t) CV_FS_MAX_LEN * 4 - 256, sz) + 256;
Ptr<std::vector<uchar> > pv = makePtr<std::vector<uchar> >(blockSize);
fs_data.push_back(pv);
uchar *new_ptr = &pv->at(0);
fs_data_ptrs.push_back(new_ptr);
fs_data_blksz.push_back(blockSize);
node.blockIdx = fs_data_ptrs.size() - 1;
node.ofs = 0;
freeSpaceOfs = sz;
if (ptr && ptr + 5 <= blockEnd) {
new_ptr[0] = ptr[0];
if (ptr[0] & FileNode::NAMED) {
new_ptr[1] = ptr[1];
new_ptr[2] = ptr[2];
new_ptr[3] = ptr[3];
new_ptr[4] = ptr[4];
}
}
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if (shrinkBlock) {
fs_data[shrinkBlockIdx]->resize(shrinkSize);
fs_data_blksz[shrinkBlockIdx] = shrinkSize;
}
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return new_ptr;
}
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unsigned FileStorage::Impl::getStringOfs(const std::string &key) const {
str_hash_t::const_iterator it = str_hash.find(key);
return it != str_hash.end() ? it->second : 0;
}
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FileNode FileStorage::Impl::addNode(FileNode &collection, const std::string &key,
int elem_type, const void *value, int len) {
FileStorage_API *fs = this;
bool noname = key.empty() || (fmt == FileStorage::FORMAT_XML && strcmp(key.c_str(), "_") == 0);
convertToCollection(noname ? FileNode::SEQ : FileNode::MAP, collection);
bool isseq = collection.empty() ? false : collection.isSeq();
if (noname != isseq)
CV_PARSE_ERROR_CPP(noname ? "Map element should have a name" :
"Sequence element should not have name (use <_></_>)");
unsigned strofs = 0;
if (!noname) {
strofs = getStringOfs(key);
if (!strofs) {
strofs = (unsigned) str_hash_data.size();
size_t keysize = key.size() + 1;
str_hash_data.resize(strofs + keysize);
memcpy(&str_hash_data[0] + strofs, &key[0], keysize);
str_hash.insert(std::make_pair(key, strofs));
}
}
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uchar *cp = collection.ptr();
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size_t blockIdx = fs_data_ptrs.size() - 1;
size_t ofs = freeSpaceOfs;
FileNode node(fs_ext, blockIdx, ofs);
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size_t sz0 = 1 + (noname ? 0 : 4) + 8;
uchar *ptr = reserveNodeSpace(node, sz0);
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*ptr++ = (uchar) (elem_type | (noname ? 0 : FileNode::NAMED));
if (elem_type == FileNode::NONE)
freeSpaceOfs -= 8;
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if (!noname) {
writeInt(ptr, (int) strofs);
ptr += 4;
}
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if (elem_type == FileNode::SEQ || elem_type == FileNode::MAP) {
writeInt(ptr, 4);
writeInt(ptr, 0);
}
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if (value)
node.setValue(elem_type, value, len);
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if (collection.isNamed())
cp += 4;
int nelems = readInt(cp + 5);
writeInt(cp + 5, nelems + 1);
return node;
}
void FileStorage::Impl::finalizeCollection(FileNode &collection) {
if (!collection.isSeq() && !collection.isMap())
return;
uchar *ptr0 = collection.ptr(), *ptr = ptr0 + 1;
if (*ptr0 & FileNode::NAMED)
ptr += 4;
size_t blockIdx = collection.blockIdx;
size_t ofs = collection.ofs + (size_t) (ptr + 8 - ptr0);
size_t rawSize = 4;
unsigned sz = (unsigned) readInt(ptr + 4);
if (sz > 0) {
size_t lastBlockIdx = fs_data_ptrs.size() - 1;
for (; blockIdx < lastBlockIdx; blockIdx++) {
rawSize += fs_data_blksz[blockIdx] - ofs;
ofs = 0;
}
}
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rawSize += freeSpaceOfs - ofs;
writeInt(ptr, (int) rawSize);
}
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void FileStorage::Impl::normalizeNodeOfs(size_t &blockIdx, size_t &ofs) const {
while (ofs >= fs_data_blksz[blockIdx]) {
if (blockIdx == fs_data_blksz.size() - 1) {
CV_Assert(ofs == fs_data_blksz[blockIdx]);
break;
}
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ofs -= fs_data_blksz[blockIdx];
blockIdx++;
}
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}
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FileStorage::Impl::Base64State FileStorage::Impl::get_state_of_writing_base64() {
return state_of_writing_base64;
}
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int FileStorage::Impl::get_space() {
return space;
}
FileStorage::Impl::Base64Decoder::Base64Decoder() {
ofs = 0;
ptr = 0;
indent = 0;
totalchars = 0;
eos = true;
}
void FileStorage::Impl::Base64Decoder::init(Ptr<FileStorageParser> &_parser, char *_ptr, int _indent) {
parser = _parser;
ptr = _ptr;
indent = _indent;
encoded.clear();
decoded.clear();
ofs = 0;
totalchars = 0;
eos = false;
}
bool FileStorage::Impl::Base64Decoder::readMore(int needed) {
static const uchar base64tab[] =
{
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0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 62, 0, 0, 0, 63,
52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 0, 0, 0, 0, 0, 0,
0, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14,
15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 0, 0, 0, 0, 0,
0, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40,
41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0
};
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if (eos)
return false;
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size_t sz = decoded.size();
CV_Assert(ofs <= sz);
sz -= ofs;
for (size_t i = 0; i < sz; i++)
decoded[i] = decoded[ofs + i];
decoded.resize(sz);
ofs = 0;
CV_Assert(!parser.empty() && ptr);
char *beg = 0, *end = 0;
bool ok = parser->getBase64Row(ptr, indent, beg, end);
ptr = end;
std::copy(beg, end, std::back_inserter(encoded));
totalchars += end - beg;
if (!ok || beg == end) {
// in the end of base64 sequence pad it with '=' characters so that
// its total length is multiple of
eos = true;
size_t tc = totalchars;
for (; tc % 4 != 0; tc++)
encoded.push_back('=');
}
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int i = 0, j, n = (int) encoded.size();
if (n > 0) {
const uchar *tab = base64tab;
char *src = &encoded[0];
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for (; i <= n - 4; i += 4) {
// dddddd cccccc bbbbbb aaaaaa => ddddddcc ccccbbbb bbaaaaaa
uchar d = tab[(int) (uchar) src[i]], c = tab[(int) (uchar) src[i + 1]];
uchar b = tab[(int) (uchar) src[i + 2]], a = tab[(int) (uchar) src[i + 3]];
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decoded.push_back((uchar) ((d << 2) | (c >> 4)));
decoded.push_back((uchar) ((c << 4) | (b >> 2)));
decoded.push_back((uchar) ((b << 6) | a));
}
}
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if (i > 0 && encoded[i - 1] == '=') {
if (i > 1 && encoded[i - 2] == '=' && !decoded.empty())
decoded.pop_back();
if (!decoded.empty())
decoded.pop_back();
}
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n -= i;
for (j = 0; j < n; j++)
encoded[j] = encoded[i + j];
encoded.resize(n);
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return (int) decoded.size() >= needed;
}
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uchar FileStorage::Impl::Base64Decoder::getUInt8() {
size_t sz = decoded.size();
if (ofs >= sz && !readMore(1))
return (uchar) 0;
return decoded[ofs++];
}
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ushort FileStorage::Impl::Base64Decoder::getUInt16() {
size_t sz = decoded.size();
if (ofs + 2 > sz && !readMore(2))
return (ushort) 0;
ushort val = (decoded[ofs] + (decoded[ofs + 1] << 8));
ofs += 2;
return val;
}
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int FileStorage::Impl::Base64Decoder::getInt32() {
size_t sz = decoded.size();
if (ofs + 4 > sz && !readMore(4))
return 0;
int ival = readInt(&decoded[ofs]);
ofs += 4;
return ival;
}
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double FileStorage::Impl::Base64Decoder::getFloat64() {
size_t sz = decoded.size();
if (ofs + 8 > sz && !readMore(8))
return 0;
double fval = readReal(&decoded[ofs]);
ofs += 8;
return fval;
}
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bool FileStorage::Impl::Base64Decoder::endOfStream() const { return eos; }
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char *FileStorage::Impl::Base64Decoder::getPtr() const { return ptr; }
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char *FileStorage::Impl::parseBase64(char *ptr, int indent, FileNode &collection) {
const int BASE64_HDR_SIZE = 24;
char dt[BASE64_HDR_SIZE + 1] = {0};
base64decoder.init(parser, ptr, indent);
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int i, k;
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for (i = 0; i < BASE64_HDR_SIZE; i++)
dt[i] = (char) base64decoder.getUInt8();
for (i = 0; i < BASE64_HDR_SIZE; i++)
if (isspace(dt[i]))
break;
dt[i] = '\0';
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CV_Assert(!base64decoder.endOfStream());
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int fmt_pairs[CV_FS_MAX_FMT_PAIRS * 2];
int fmt_pair_count = fs::decodeFormat(dt, fmt_pairs, CV_FS_MAX_FMT_PAIRS);
int ival = 0;
double fval = 0;
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for (;;) {
for (k = 0; k < fmt_pair_count; k++) {
int elem_type = fmt_pairs[k * 2 + 1];
int count = fmt_pairs[k * 2];
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for (i = 0; i < count; i++) {
int node_type = FileNode::INT;
switch (elem_type) {
case CV_8U:
ival = base64decoder.getUInt8();
break;
case CV_8S:
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ival = (char) base64decoder.getUInt8();
break;
case CV_16U:
ival = base64decoder.getUInt16();
break;
case CV_16S:
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ival = (short) base64decoder.getUInt16();
break;
case CV_32S:
ival = base64decoder.getInt32();
break;
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case CV_32F: {
Cv32suf v;
v.i = base64decoder.getInt32();
fval = v.f;
node_type = FileNode::REAL;
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}
break;
case CV_64F:
fval = base64decoder.getFloat64();
node_type = FileNode::REAL;
break;
case CV_16F:
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fval = (float) float16_t::fromBits(base64decoder.getUInt16());
node_type = FileNode::REAL;
break;
default:
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CV_Error(Error::StsUnsupportedFormat, "Unsupported type");
}
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if (base64decoder.endOfStream())
break;
addNode(collection, std::string(), node_type,
node_type == FileNode::INT ? (void *) &ival : (void *) &fval, -1);
}
}
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if (base64decoder.endOfStream())
break;
}
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finalizeCollection(collection);
return base64decoder.getPtr();
}
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void FileStorage::Impl::parseError(const char *func_name, const std::string &err_msg, const char *source_file,
int source_line) {
std::string msg = format("%s(%d): %s", filename.c_str(), lineno, err_msg.c_str());
error(Error::StsParseError, func_name, msg.c_str(), source_file, source_line);
}
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const uchar *FileStorage::Impl::getNodePtr(size_t blockIdx, size_t ofs) const {
CV_Assert(blockIdx < fs_data_ptrs.size());
CV_Assert(ofs < fs_data_blksz[blockIdx]);
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return fs_data_ptrs[blockIdx] + ofs;
}
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std::string FileStorage::Impl::getName(size_t nameofs) const {
CV_Assert(nameofs < str_hash_data.size());
return std::string(&str_hash_data[nameofs]);
}
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FileStorage *FileStorage::Impl::getFS() { return fs_ext; }
FileStorage::FileStorage()
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: state(0)
{
p = makePtr<FileStorage::Impl>(this);
}
FileStorage::FileStorage(const String& filename, int flags, const String& encoding)
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: state(0)
{
p = makePtr<FileStorage::Impl>(this);
bool ok = p->open(filename.c_str(), flags, encoding.c_str());
if(ok)
state = FileStorage::NAME_EXPECTED + FileStorage::INSIDE_MAP;
}
void FileStorage::startWriteStruct(const String& name, int struct_flags, const String& typeName)
{
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p->startWriteStruct(name.size() ? name.c_str() : 0, struct_flags, typeName.size() ? typeName.c_str() : 0);
elname = String();
if ((struct_flags & FileNode::TYPE_MASK) == FileNode::SEQ)
state = FileStorage::VALUE_EXPECTED;
else
state = FileStorage::NAME_EXPECTED + FileStorage::INSIDE_MAP;
}
void FileStorage::endWriteStruct()
{
p->endWriteStruct();
state = p->write_stack.empty() || FileNode::isMap(p->write_stack.back().flags) ?
FileStorage::NAME_EXPECTED + FileStorage::INSIDE_MAP :
FileStorage::VALUE_EXPECTED;
elname = String();
}
FileStorage::~FileStorage()
{
}
bool FileStorage::open(const String& filename, int flags, const String& encoding)
{
try
{
bool ok = p->open(filename.c_str(), flags, encoding.c_str());
if(ok)
state = FileStorage::NAME_EXPECTED + FileStorage::INSIDE_MAP;
return ok;
}
catch (...)
{
release();
throw; // re-throw
}
}
bool FileStorage::isOpened() const { return p->is_opened; }
void FileStorage::release()
{
p->release();
}
FileNode FileStorage::root(int i) const
{
if( p.empty() || p->roots.empty() || i < 0 || i >= (int)p->roots.size() )
return FileNode();
return p->roots[i];
}
FileNode FileStorage::getFirstTopLevelNode() const
{
FileNode r = root();
FileNodeIterator it = r.begin();
return it != r.end() ? *it : FileNode();
}
std::string FileStorage::getDefaultObjectName(const std::string& _filename)
{
static const char* stubname = "unnamed";
const char* filename = _filename.c_str();
const char* ptr2 = filename + _filename.size();
const char* ptr = ptr2 - 1;
cv::AutoBuffer<char> name_buf(_filename.size()+1);
while( ptr >= filename && *ptr != '\\' && *ptr != '/' && *ptr != ':' )
{
if( *ptr == '.' && (!*ptr2 || strncmp(ptr2, ".gz", 3) == 0) )
ptr2 = ptr;
ptr--;
}
ptr++;
if( ptr == ptr2 )
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CV_Error( cv::Error::StsBadArg, "Invalid filename" );
char* name = name_buf.data();
// name must start with letter or '_'
if( !cv_isalpha(*ptr) && *ptr!= '_' ){
*name++ = '_';
}
while( ptr < ptr2 )
{
char c = *ptr++;
if( !cv_isalnum(c) && c != '-' && c != '_' )
c = '_';
*name++ = c;
}
*name = '\0';
name = name_buf.data();
if( strcmp( name, "_" ) == 0 )
strcpy( name, stubname );
return name;
}
int FileStorage::getFormat() const
{
return p->fmt;
}
FileNode FileStorage::operator [](const char* key) const
{
return this->operator[](std::string(key));
}
FileNode FileStorage::operator [](const std::string& key) const
{
FileNode res;
for (size_t i = 0; i < p->roots.size(); i++)
{
res = p->roots[i][key];
if (!res.empty())
break;
}
return res;
}
String FileStorage::releaseAndGetString()
{
String buf;
p->release(&buf);
return buf;
}
void FileStorage::writeRaw( const String& fmt, const void* vec, size_t len )
{
p->writeRawData(fmt, (const uchar*)vec, len);
}
void FileStorage::writeComment( const String& comment, bool eol_comment )
{
p->writeComment(comment.c_str(), eol_comment);
}
void writeScalar( FileStorage& fs, int value )
{
fs.p->write(String(), value);
}
void writeScalar( FileStorage& fs, float value )
{
fs.p->write(String(), (double)value);
}
void writeScalar( FileStorage& fs, double value )
{
fs.p->write(String(), value);
}
void writeScalar( FileStorage& fs, const String& value )
{
fs.p->write(String(), value);
}
void write( FileStorage& fs, const String& name, int value )
{
fs.p->write(name, value);
}
void write( FileStorage& fs, const String& name, float value )
{
fs.p->write(name, (double)value);
}
void write( FileStorage& fs, const String& name, double value )
{
fs.p->write(name, value);
}
void write( FileStorage& fs, const String& name, const String& value )
{
fs.p->write(name, value);
}
void FileStorage::write(const String& name, int val) { p->write(name, val); }
void FileStorage::write(const String& name, double val) { p->write(name, val); }
void FileStorage::write(const String& name, const String& val) { p->write(name, val); }
void FileStorage::write(const String& name, const Mat& val) { cv::write(*this, name, val); }
void FileStorage::write(const String& name, const std::vector<String>& val) { cv::write(*this, name, val); }
FileStorage& operator << (FileStorage& fs, const String& str)
{
enum { NAME_EXPECTED = FileStorage::NAME_EXPECTED,
VALUE_EXPECTED = FileStorage::VALUE_EXPECTED,
INSIDE_MAP = FileStorage::INSIDE_MAP };
const char* _str = str.c_str();
if( !fs.isOpened() || !_str )
return fs;
Ptr<FileStorage::Impl>& fs_impl = fs.p;
char c = *_str;
if( c == '}' || c == ']' )
{
if( fs_impl->write_stack.empty() )
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CV_Error_( cv::Error::StsError, ("Extra closing '%c'", *_str) );
fs_impl->workaround();
int struct_flags = fs_impl->write_stack.back().flags;
char expected_bracket = FileNode::isMap(struct_flags) ? '}' : ']';
if( c != expected_bracket )
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CV_Error_( cv::Error::StsError, ("The closing '%c' does not match the opening '%c'", c, expected_bracket));
fs_impl->endWriteStruct();
CV_Assert(!fs_impl->write_stack.empty());
struct_flags = fs_impl->write_stack.back().flags;
fs.state = FileNode::isMap(struct_flags) ? INSIDE_MAP + NAME_EXPECTED : VALUE_EXPECTED;
fs.elname = String();
}
else if( fs.state == NAME_EXPECTED + INSIDE_MAP )
{
if (!cv_isalpha(c) && c != '_')
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CV_Error_( cv::Error::StsError, ("Incorrect element name %s; should start with a letter or '_'", _str) );
fs.elname = str;
fs.state = VALUE_EXPECTED + INSIDE_MAP;
}
else if( (fs.state & 3) == VALUE_EXPECTED )
{
if( c == '{' || c == '[' )
{
int struct_flags = c == '{' ? FileNode::MAP : FileNode::SEQ;
fs.state = struct_flags == FileNode::MAP ? INSIDE_MAP + NAME_EXPECTED : VALUE_EXPECTED;
_str++;
if( *_str == ':' )
{
_str++;
if( !*_str )
struct_flags |= FileNode::FLOW;
}
fs_impl->startWriteStruct(!fs.elname.empty() ? fs.elname.c_str() : 0, struct_flags, *_str ? _str : 0 );
fs.elname = String();
}
else
{
write( fs, fs.elname, (c == '\\' && (_str[1] == '{' || _str[1] == '}' ||
_str[1] == '[' || _str[1] == ']')) ? String(_str+1) : str );
if( fs.state == INSIDE_MAP + VALUE_EXPECTED )
fs.state = INSIDE_MAP + NAME_EXPECTED;
}
}
else
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CV_Error( cv::Error::StsError, "Invalid fs.state" );
return fs;
}
FileNode::FileNode()
: fs(NULL)
{
blockIdx = ofs = 0;
}
FileNode::FileNode(FileStorage::Impl* _fs, size_t _blockIdx, size_t _ofs)
: fs(_fs)
{
blockIdx = _blockIdx;
ofs = _ofs;
}
FileNode::FileNode(const FileStorage* _fs, size_t _blockIdx, size_t _ofs)
: FileNode(_fs->p.get(), _blockIdx, _ofs)
{
// nothing
}
FileNode::FileNode(const FileNode& node)
{
fs = node.fs;
blockIdx = node.blockIdx;
ofs = node.ofs;
}
FileNode& FileNode::operator=(const FileNode& node)
{
fs = node.fs;
blockIdx = node.blockIdx;
ofs = node.ofs;
return *this;
}
FileNode FileNode::operator[](const std::string& nodename) const
{
if(!fs)
return FileNode();
CV_Assert( isMap() );
unsigned key = fs->getStringOfs(nodename);
size_t i, sz = size();
FileNodeIterator it = begin();
for( i = 0; i < sz; i++, ++it )
{
FileNode n = *it;
const uchar* p = n.ptr();
unsigned key2 = (unsigned)readInt(p + 1);
CV_Assert( key2 < fs->str_hash_data.size() );
if( key == key2 )
return n;
}
return FileNode();
}
FileNode FileNode::operator[](const char* nodename) const
{
return this->operator[](std::string(nodename));
}
FileNode FileNode::operator[](int i) const
{
if(!fs)
return FileNode();
CV_Assert( isSeq() );
int sz = (int)size();
CV_Assert( 0 <= i && i < sz );
FileNodeIterator it = begin();
it += i;
return *it;
}
std::vector<String> FileNode::keys() const
{
CV_Assert(isMap());
std::vector<String> res;
res.reserve(size());
for (FileNodeIterator it = begin(); it != end(); ++it)
{
res.push_back((*it).name());
}
return res;
}
int FileNode::type() const
{
const uchar* p = ptr();
if(!p)
return NONE;
return (*p & TYPE_MASK);
}
bool FileNode::isMap(int flags) { return (flags & TYPE_MASK) == MAP; }
bool FileNode::isSeq(int flags) { return (flags & TYPE_MASK) == SEQ; }
bool FileNode::isCollection(int flags) { return isMap(flags) || isSeq(flags); }
bool FileNode::isFlow(int flags) { return (flags & FLOW) != 0; }
bool FileNode::isEmptyCollection(int flags) { return (flags & EMPTY) != 0; }
bool FileNode::empty() const { return fs == 0; }
bool FileNode::isNone() const { return type() == NONE; }
bool FileNode::isSeq() const { return type() == SEQ; }
bool FileNode::isMap() const { return type() == MAP; }
bool FileNode::isInt() const { return type() == INT; }
bool FileNode::isReal() const { return type() == REAL; }
bool FileNode::isString() const { return type() == STRING; }
bool FileNode::isNamed() const
{
const uchar* p = ptr();
if(!p)
return false;
return (*p & NAMED) != 0;
}
std::string FileNode::name() const
{
const uchar* p = ptr();
if(!p)
return std::string();
size_t nameofs = p[1] | (p[2]<<8) | (p[3]<<16) | (p[4]<<24);
return fs->getName(nameofs);
}
FileNode::operator int() const
{
const uchar* p = ptr();
if(!p)
return 0;
int tag = *p;
int type = (tag & TYPE_MASK);
p += (tag & NAMED) ? 5 : 1;
if( type == INT )
{
return readInt(p);
}
else if( type == REAL )
{
return cvRound(readReal(p));
}
else
return 0x7fffffff;
}
FileNode::operator float() const
{
const uchar* p = ptr();
if(!p)
return 0.f;
int tag = *p;
int type = (tag & TYPE_MASK);
p += (tag & NAMED) ? 5 : 1;
if( type == INT )
{
return (float)readInt(p);
}
else if( type == REAL )
{
return (float)readReal(p);
}
else
return FLT_MAX;
}
FileNode::operator double() const
{
const uchar* p = ptr();
if(!p)
return 0.f;
int tag = *p;
int type = (tag & TYPE_MASK);
p += (tag & NAMED) ? 5 : 1;
if( type == INT )
{
return (double)readInt(p);
}
else if( type == REAL )
{
return readReal(p);
}
else
return DBL_MAX;
}
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double FileNode::real() const { return double(*this); }
std::string FileNode::string() const
{
const uchar* p = ptr();
if( !p || (*p & TYPE_MASK) != STRING )
return std::string();
p += (*p & NAMED) ? 5 : 1;
size_t sz = (size_t)(unsigned)readInt(p);
return std::string((const char*)(p + 4), sz - 1);
}
Mat FileNode::mat() const { Mat value; read(*this, value, Mat()); return value; }
FileNodeIterator FileNode::begin() const { return FileNodeIterator(*this, false); }
FileNodeIterator FileNode::end() const { return FileNodeIterator(*this, true); }
void FileNode::readRaw( const std::string& fmt, void* vec, size_t len ) const
{
FileNodeIterator it = begin();
it.readRaw( fmt, vec, len );
}
size_t FileNode::size() const
{
const uchar* p = ptr();
if( !p )
return 0;
int tag = *p;
int tp = tag & TYPE_MASK;
if( tp == MAP || tp == SEQ )
{
if( tag & NAMED )
p += 4;
return (size_t)(unsigned)readInt(p + 5);
}
return tp != NONE;
}
size_t FileNode::rawSize() const
{
const uchar* p0 = ptr(), *p = p0;
if( !p )
return 0;
int tag = *p++;
int tp = tag & TYPE_MASK;
if( tag & NAMED )
p += 4;
size_t sz0 = (size_t)(p - p0);
if( tp == INT )
return sz0 + 4;
if( tp == REAL )
return sz0 + 8;
if( tp == NONE )
return sz0;
CV_Assert( tp == STRING || tp == SEQ || tp == MAP );
return sz0 + 4 + readInt(p);
}
uchar* FileNode::ptr()
{
return !fs ? 0 : (uchar*)fs->getNodePtr(blockIdx, ofs);
}
const uchar* FileNode::ptr() const
{
return !fs ? 0 : fs->getNodePtr(blockIdx, ofs);
}
void FileNode::setValue( int type, const void* value, int len )
{
uchar *p = ptr();
CV_Assert(p != 0);
int tag = *p;
int current_type = tag & TYPE_MASK;
CV_Assert( current_type == NONE || current_type == type );
int sz = 1;
if( tag & NAMED )
sz += 4;
if( type == INT )
sz += 4;
else if( type == REAL )
sz += 8;
else if( type == STRING )
{
if( len < 0 )
len = (int)strlen((const char*)value);
sz += 4 + len + 1; // besides the string content,
// take the size (4 bytes) and the final '\0' into account
}
else
CV_Error(Error::StsNotImplemented, "Only scalar types can be dynamically assigned to a file node");
p = fs->reserveNodeSpace(*this, sz);
*p++ = (uchar)(type | (tag & NAMED));
if( tag & NAMED )
p += 4;
if( type == INT )
{
int ival = *(const int*)value;
writeInt(p, ival);
}
else if( type == REAL )
{
double dbval = *(const double*)value;
writeReal(p, dbval);
}
else if( type == STRING )
{
const char* str = (const char*)value;
writeInt(p, len + 1);
memcpy(p + 4, str, len);
p[4 + len] = (uchar)'\0';
}
}
FileNodeIterator::FileNodeIterator()
{
fs = 0;
blockIdx = 0;
ofs = 0;
blockSize = 0;
nodeNElems = 0;
idx = 0;
}
FileNodeIterator::FileNodeIterator( const FileNode& node, bool seekEnd )
{
fs = node.fs;
idx = 0;
if( !fs )
blockIdx = ofs = blockSize = nodeNElems = 0;
else
{
blockIdx = node.blockIdx;
ofs = node.ofs;
bool collection = node.isSeq() || node.isMap();
if( node.isNone() )
{
nodeNElems = 0;
}
else if( !collection )
{
nodeNElems = 1;
if( seekEnd )
{
idx = 1;
ofs += node.rawSize();
}
}
else
{
nodeNElems = node.size();
const uchar* p0 = node.ptr(), *p = p0 + 1;
if(*p0 & FileNode::NAMED )
p += 4;
if( !seekEnd )
ofs += (p - p0) + 8;
else
{
size_t rawsz = (size_t)(unsigned)readInt(p);
ofs += (p - p0) + 4 + rawsz;
idx = nodeNElems;
}
}
fs->normalizeNodeOfs(blockIdx, ofs);
blockSize = fs->fs_data_blksz[blockIdx];
}
}
FileNodeIterator::FileNodeIterator(const FileNodeIterator& it)
{
fs = it.fs;
blockIdx = it.blockIdx;
ofs = it.ofs;
blockSize = it.blockSize;
nodeNElems = it.nodeNElems;
idx = it.idx;
}
FileNodeIterator& FileNodeIterator::operator=(const FileNodeIterator& it)
{
fs = it.fs;
blockIdx = it.blockIdx;
ofs = it.ofs;
blockSize = it.blockSize;
nodeNElems = it.nodeNElems;
idx = it.idx;
return *this;
}
FileNode FileNodeIterator::operator *() const
{
return FileNode(idx < nodeNElems ? fs : NULL, blockIdx, ofs);
}
FileNodeIterator& FileNodeIterator::operator ++ ()
{
if( idx == nodeNElems || !fs )
return *this;
idx++;
FileNode n(fs, blockIdx, ofs);
ofs += n.rawSize();
if( ofs >= blockSize )
{
fs->normalizeNodeOfs(blockIdx, ofs);
blockSize = fs->fs_data_blksz[blockIdx];
}
return *this;
}
FileNodeIterator FileNodeIterator::operator ++ (int)
{
FileNodeIterator it = *this;
++(*this);
return it;
}
FileNodeIterator& FileNodeIterator::operator += (int _ofs)
{
CV_Assert( _ofs >= 0 );
for( ; _ofs > 0; _ofs-- )
this->operator ++();
return *this;
}
FileNodeIterator& FileNodeIterator::readRaw( const String& fmt, void* _data0, size_t maxsz)
{
if( fs && idx < nodeNElems )
{
uchar* data0 = (uchar*)_data0;
int fmt_pairs[CV_FS_MAX_FMT_PAIRS*2];
int fmt_pair_count = fs::decodeFormat( fmt.c_str(), fmt_pairs, CV_FS_MAX_FMT_PAIRS );
size_t esz = fs::calcStructSize( fmt.c_str(), 0 );
CV_Assert( maxsz % esz == 0 );
maxsz /= esz;
for( ; maxsz > 0; maxsz--, data0 += esz )
{
size_t offset = 0;
for( int k = 0; k < fmt_pair_count; k++ )
{
int elem_type = fmt_pairs[k*2+1];
int elem_size = CV_ELEM_SIZE(elem_type);
int count = fmt_pairs[k*2];
offset = alignSize( offset, elem_size );
uchar* data = data0 + offset;
for( int i = 0; i < count; i++, ++(*this) )
{
FileNode node = *(*this);
if( node.isInt() )
{
int ival = (int)node;
switch( elem_type )
{
case CV_8U:
*(uchar*)data = saturate_cast<uchar>(ival);
data++;
break;
case CV_8S:
*(char*)data = saturate_cast<schar>(ival);
data++;
break;
case CV_16U:
*(ushort*)data = saturate_cast<ushort>(ival);
data += sizeof(ushort);
break;
case CV_16S:
*(short*)data = saturate_cast<short>(ival);
data += sizeof(short);
break;
case CV_32S:
*(int*)data = ival;
data += sizeof(int);
break;
case CV_32F:
*(float*)data = (float)ival;
data += sizeof(float);
break;
case CV_64F:
*(double*)data = (double)ival;
data += sizeof(double);
break;
case CV_16F:
*(float16_t*)data = float16_t((float)ival);
data += sizeof(float16_t);
break;
default:
CV_Error( Error::StsUnsupportedFormat, "Unsupported type" );
}
}
else if( node.isReal() )
{
double fval = (double)node;
switch( elem_type )
{
case CV_8U:
*(uchar*)data = saturate_cast<uchar>(fval);
data++;
break;
case CV_8S:
*(char*)data = saturate_cast<schar>(fval);
data++;
break;
case CV_16U:
*(ushort*)data = saturate_cast<ushort>(fval);
data += sizeof(ushort);
break;
case CV_16S:
*(short*)data = saturate_cast<short>(fval);
data += sizeof(short);
break;
case CV_32S:
*(int*)data = saturate_cast<int>(fval);
data += sizeof(int);
break;
case CV_32F:
*(float*)data = (float)fval;
data += sizeof(float);
break;
case CV_64F:
*(double*)data = fval;
data += sizeof(double);
break;
case CV_16F:
*(float16_t*)data = float16_t((float)fval);
data += sizeof(float16_t);
break;
default:
CV_Error( Error::StsUnsupportedFormat, "Unsupported type" );
}
}
else
CV_Error( Error::StsError, "readRawData can only be used to read plain sequences of numbers" );
}
offset = (int)(data - data0);
}
}
}
return *this;
}
bool FileNodeIterator::equalTo(const FileNodeIterator& it) const
{
return fs == it.fs && blockIdx == it.blockIdx && ofs == it.ofs &&
idx == it.idx && nodeNElems == it.nodeNElems;
}
size_t FileNodeIterator::remaining() const
{
return nodeNElems - idx;
}
bool operator == ( const FileNodeIterator& it1, const FileNodeIterator& it2 )
{
return it1.equalTo(it2);
}
bool operator != ( const FileNodeIterator& it1, const FileNodeIterator& it2 )
{
return !it1.equalTo(it2);
}
void read(const FileNode& node, int& val, int default_val)
{
val = default_val;
if( !node.empty() )
{
val = (int)node;
}
}
void read(const FileNode& node, double& val, double default_val)
{
val = default_val;
if( !node.empty() )
{
val = (double)node;
}
}
void read(const FileNode& node, float& val, float default_val)
{
val = default_val;
if( !node.empty() )
{
val = (float)node;
}
}
void read(const FileNode& node, std::string& val, const std::string& default_val)
{
val = default_val;
if( !node.empty() )
{
val = (std::string)node;
}
}
FileStorage_API::~FileStorage_API() {}
namespace internal
{
WriteStructContext::WriteStructContext(FileStorage& _fs, const std::string& name,
int flags, const std::string& typeName)
{
fs = &_fs;
fs->startWriteStruct(name, flags, typeName);
}
WriteStructContext::~WriteStructContext()
{
fs->endWriteStruct();
}
}
}