/*M/////////////////////////////////////////////////////////////////////////////////////// // // IMPORTANT: READ BEFORE DOWNLOADING, COPYING, INSTALLING OR USING. // // By downloading, copying, installing or using the software you agree to this license. // If you do not agree to this license, do not download, install, // copy or use the software. // // // License Agreement // For Open Source Computer Vision Library // // Copyright (C) 2000-2008, Intel Corporation, all rights reserved. // Copyright (C) 2009, Willow Garage Inc., all rights reserved. // Copyright (C) 2013, OpenCV Foundation, all rights reserved. // Third party copyrights are property of their respective owners. // // Redistribution and use in source and binary forms, with or without modification, // are permitted provided that the following conditions are met: // // * Redistribution's of source code must retain the above copyright notice, // this list of conditions and the following disclaimer. // // * Redistribution's in binary form must reproduce the above copyright notice, // this list of conditions and the following disclaimer in the documentation // and/or other materials provided with the distribution. // // * The name of the copyright holders may not be used to endorse or promote products // derived from this software without specific prior written permission. // // This software is provided by the copyright holders and contributors "as is" and // any express or implied warranties, including, but not limited to, the implied // warranties of merchantability and fitness for a particular purpose are disclaimed. // In no event shall the Intel Corporation or contributors be liable for any direct, // indirect, incidental, special, exemplary, or consequential damages // (including, but not limited to, procurement of substitute goods or services; // loss of use, data, or profits; or business interruption) however caused // and on any theory of liability, whether in contract, strict liability, // or tort (including negligence or otherwise) arising in any way out of // the use of this software, even if advised of the possibility of such damage. // //M*/ #include "precomp.hpp" namespace cv { class FormattedImpl : public Formatted { enum { STATE_PROLOGUE, STATE_EPILOGUE, STATE_INTERLUDE, STATE_ROW_OPEN, STATE_ROW_CLOSE, STATE_CN_OPEN, STATE_CN_CLOSE, STATE_VALUE, STATE_FINISHED, STATE_LINE_SEPARATOR, STATE_CN_SEPARATOR, STATE_VALUE_SEPARATOR }; enum {BRACE_ROW_OPEN = 0, BRACE_ROW_CLOSE = 1, BRACE_ROW_SEP=2, BRACE_CN_OPEN=3, BRACE_CN_CLOSE=4 }; char floatFormat[8]; char buf[32]; // enough for double with precision up to 20 Mat mtx; int mcn; // == mtx.channels() bool singleLine; bool alignOrder; // true when cn first order int state; int row; int col; int cn; String prologue; String epilogue; char braces[5]; void (FormattedImpl::*valueToStr)(); void valueToStr8u() { sprintf(buf, "%3d", (int)mtx.ptr(row, col)[cn]); } void valueToStr8s() { sprintf(buf, "%3d", (int)mtx.ptr(row, col)[cn]); } void valueToStr16u() { sprintf(buf, "%d", (int)mtx.ptr(row, col)[cn]); } void valueToStr16s() { sprintf(buf, "%d", (int)mtx.ptr(row, col)[cn]); } void valueToStr32s() { sprintf(buf, "%d", mtx.ptr(row, col)[cn]); } void valueToStr32f() { sprintf(buf, floatFormat, mtx.ptr(row, col)[cn]); } void valueToStr64f() { sprintf(buf, floatFormat, mtx.ptr(row, col)[cn]); } void valueToStrOther() { buf[0] = 0; } public: FormattedImpl(String pl, String el, Mat m, char br[5], bool sLine, bool aOrder, int precision) { CV_Assert(m.dims <= 2); prologue = pl; epilogue = el; mtx = m; mcn = m.channels(); memcpy(braces, br, 5); state = STATE_PROLOGUE; singleLine = sLine; alignOrder = aOrder; row = col = cn =0; if (precision < 0) { floatFormat[0] = '%'; floatFormat[1] = 'a'; floatFormat[2] = 0; } else { cv_snprintf(floatFormat, sizeof(floatFormat), "%%.%dg", std::min(precision, 20)); } switch(mtx.depth()) { case CV_8U: valueToStr = &FormattedImpl::valueToStr8u; break; case CV_8S: valueToStr = &FormattedImpl::valueToStr8s; break; case CV_16U: valueToStr = &FormattedImpl::valueToStr16u; break; case CV_16S: valueToStr = &FormattedImpl::valueToStr16s; break; case CV_32S: valueToStr = &FormattedImpl::valueToStr32s; break; case CV_32F: valueToStr = &FormattedImpl::valueToStr32f; break; case CV_64F: valueToStr = &FormattedImpl::valueToStr64f; break; default: valueToStr = &FormattedImpl::valueToStrOther; break; } } void reset() { state = STATE_PROLOGUE; } const char* next() { switch(state) { case STATE_PROLOGUE: row = 0; if (mtx.empty()) state = STATE_EPILOGUE; else if (alignOrder) state = STATE_INTERLUDE; else state = STATE_ROW_OPEN; return prologue.c_str(); case STATE_INTERLUDE: state = STATE_ROW_OPEN; if (row >= mtx.rows) { if (++cn >= mcn) { state = STATE_EPILOGUE; buf[0] = 0; return buf; } else row = 0; sprintf(buf, "\n(:, :, %d) = \n", cn+1); return buf; } sprintf(buf, "(:, :, %d) = \n", cn+1); return buf; case STATE_EPILOGUE: state = STATE_FINISHED; return epilogue.c_str(); case STATE_ROW_OPEN: col = 0; state = STATE_CN_OPEN; { size_t pos = 0; if (row > 0) while(pos < prologue.size() && pos < sizeof(buf) - 2) buf[pos++] = ' '; if (braces[BRACE_ROW_OPEN]) buf[pos++] = braces[BRACE_ROW_OPEN]; if(!pos) return next(); buf[pos] = 0; } return buf; case STATE_ROW_CLOSE: state = STATE_LINE_SEPARATOR; ++row; if (braces[BRACE_ROW_CLOSE]) { buf[0] = braces[BRACE_ROW_CLOSE]; buf[1] = row < mtx.rows ? ',' : '\0'; buf[2] = 0; return buf; } else if(braces[BRACE_ROW_SEP] && row < mtx.rows) { buf[0] = braces[BRACE_ROW_SEP]; buf[1] = 0; return buf; } return next(); case STATE_CN_OPEN: state = STATE_VALUE; if (!alignOrder) cn = 0; if (mcn > 1 && braces[BRACE_CN_OPEN]) { buf[0] = braces[BRACE_CN_OPEN]; buf[1] = 0; return buf; } return next(); case STATE_CN_CLOSE: ++col; if (col >= mtx.cols) state = STATE_ROW_CLOSE; else state = STATE_CN_SEPARATOR; if (mcn > 1 && braces[BRACE_CN_CLOSE]) { buf[0] = braces[BRACE_CN_CLOSE]; buf[1] = 0; return buf; } return next(); case STATE_VALUE: (this->*valueToStr)(); state = STATE_CN_CLOSE; if (alignOrder) return buf; if (++cn < mcn) state = STATE_VALUE_SEPARATOR; return buf; case STATE_FINISHED: return 0; case STATE_LINE_SEPARATOR: if (row >= mtx.rows) { if (alignOrder) state = STATE_INTERLUDE; else state = STATE_EPILOGUE; return next(); } state = STATE_ROW_OPEN; buf[0] = singleLine ? ' ' : '\n'; buf[1] = 0; return buf; case STATE_CN_SEPARATOR: state = STATE_CN_OPEN; buf[0] = ','; buf[1] = ' '; buf[2] = 0; return buf; case STATE_VALUE_SEPARATOR: state = STATE_VALUE; buf[0] = ','; buf[1] = ' '; buf[2] = 0; return buf; } return 0; } }; class FormatterBase : public Formatter { public: FormatterBase() : prec32f(8), prec64f(16), multiline(true) {} void set32fPrecision(int p) { prec32f = p; } void set64fPrecision(int p) { prec64f = p; } void setMultiline(bool ml) { multiline = ml; } protected: int prec32f; int prec64f; int multiline; }; class DefaultFormatter : public FormatterBase { public: Ptr format(const Mat& mtx) const { char braces[5] = {'\0', '\0', ';', '\0', '\0'}; return makePtr("[", "]", mtx, &*braces, mtx.rows == 1 || !multiline, false, mtx.depth() == CV_64F ? prec64f : prec32f ); } }; class MatlabFormatter : public FormatterBase { public: Ptr format(const Mat& mtx) const { char braces[5] = {'\0', '\0', ';', '\0', '\0'}; return makePtr("", "", mtx, &*braces, mtx.rows == 1 || !multiline, true, mtx.depth() == CV_64F ? prec64f : prec32f ); } }; class PythonFormatter : public FormatterBase { public: Ptr format(const Mat& mtx) const { char braces[5] = {'[', ']', ',', '[', ']'}; if (mtx.cols == 1) braces[0] = braces[1] = '\0'; return makePtr("[", "]", mtx, &*braces, mtx.rows == 1 || !multiline, false, mtx.depth() == CV_64F ? prec64f : prec32f ); } }; class NumpyFormatter : public FormatterBase { public: Ptr format(const Mat& mtx) const { static const char* numpyTypes[] = { "uint8", "int8", "uint16", "int16", "int32", "float32", "float64", "uint64" }; char braces[5] = {'[', ']', ',', '[', ']'}; if (mtx.cols == 1) braces[0] = braces[1] = '\0'; return makePtr("array([", cv::format("], dtype='%s')", numpyTypes[mtx.depth()]), mtx, &*braces, mtx.rows == 1 || !multiline, false, mtx.depth() == CV_64F ? prec64f : prec32f ); } }; class CSVFormatter : public FormatterBase { public: Ptr format(const Mat& mtx) const { char braces[5] = {'\0', '\0', '\0', '\0', '\0'}; return makePtr(String(), mtx.rows > 1 ? String("\n") : String(), mtx, &*braces, mtx.rows == 1 || !multiline, false, mtx.depth() == CV_64F ? prec64f : prec32f ); } }; class CFormatter : public FormatterBase { public: Ptr format(const Mat& mtx) const { char braces[5] = {'\0', '\0', ',', '\0', '\0'}; return makePtr("{", "}", mtx, &*braces, mtx.rows == 1 || !multiline, false, mtx.depth() == CV_64F ? prec64f : prec32f ); } }; Formatted::~Formatted() {} Formatter::~Formatter() {} Ptr Formatter::get(int fmt) { switch(fmt) { case FMT_DEFAULT: return makePtr(); case FMT_MATLAB: return makePtr(); case FMT_CSV: return makePtr(); case FMT_PYTHON: return makePtr(); case FMT_NUMPY: return makePtr(); case FMT_C: return makePtr(); } return makePtr(); } } // cv