Sat, 06 Jul 2013 01:59:58 +0300
Added missing src/src.pro file
/* * LDForge: LDraw parts authoring CAD * Copyright (C) 2013 Santeri Piippo * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see <http://www.gnu.org/licenses/>. */ #include <QObject> #include <QStringList> #include <QTextStream> #include <qfile.h> #include <assert.h> #include "common.h" #include "types.h" #include "misc.h" const File nullfile; str DoFormat (vector<StringFormatArg> args) { assert (args.size () >= 1); str text = args[0].value (); for (uchar i = 1; i < args.size (); ++i) text = text.arg (args[i].value ()); return text; } vertex::vertex (double x, double y, double z) { m_coords[X] = x; m_coords[Y] = y; m_coords[Z] = z; } // ============================================================================= void vertex::move (const vertex& other) { for (const Axis ax : g_Axes) m_coords[ax] += other[ax]; } // ============================================================================= vertex vertex::midpoint (const vertex& other) { vertex mid; for (const Axis ax : g_Axes) mid[ax] = (m_coords[ax] + other[ax]) / 2; return mid; } // ============================================================================= str vertex::stringRep (bool mangled) const { if (mangled) return (str ("(") + ftoa (coord (X)) + ", " + ftoa (coord (Y)) + ", " + ftoa (coord (Z)) + ")"); return QStringList ({ftoa (coord (X)), ftoa (coord (Y)), ftoa (coord (Z))}).join (" "); } // ============================================================================= void vertex::transform (matrix matr, vertex pos) { double x2 = (matr[0] * x ()) + (matr[1] * y ()) + (matr[2] * z ()) + pos[X]; double y2 = (matr[3] * x ()) + (matr[4] * y ()) + (matr[5] * z ()) + pos[Y]; double z2 = (matr[6] * x ()) + (matr[7] * y ()) + (matr[8] * z ()) + pos[Z]; x () = x2; y () = y2; z () = z2; } vertex vertex::operator-() const { return vertex (-m_coords[X], -m_coords[Y], -m_coords[Z]); } bool vertex::operator!= (const vertex& other) const { return !operator== (other); } double& vertex::operator[] (const Axis ax) { return coord ((ushort) ax); } const double& vertex::operator[] (const Axis ax) const { return coord ((ushort) ax); } double& vertex::operator[] (const int ax) { return coord (ax); } const double& vertex::operator[] (const int ax) const { return coord (ax); } bool vertex::operator== (const vertex& other) const { return coord (X) == other[X] && coord (Y) == other[Y] && coord (Z) == other[Z]; } vertex& vertex::operator/= (const double d) { for (const Axis ax : g_Axes) m_coords[ax] /= d; return *this; } vertex vertex::operator/ (const double d) const { vertex other (*this); return other /= d; } vertex& vertex::operator+= (const vertex& other) { move (other); return *this; } vertex vertex::operator+ (const vertex& other) const { vertex newvert (*this); newvert.move (other); return newvert; } int vertex::operator< (const vertex& other) const { if (operator== (other)) return false; if (coord (X) < other[X]) return true; if (coord (X) > other[X]) return false; if (coord (Y) < other[Y]) return true; if (coord (Y) > other[Y]) return false; return coord (Z) < other[Z]; } // ============================================================================= matrix::matrix (double vals[]) { for (short i = 0; i < 9; ++i) m_vals[i] = vals[i]; } matrix::matrix (double fillval) { for (short i = 0; i < 9; ++i) m_vals[i] = fillval; } matrix::matrix (initlist<double> vals) { assert (vals.size() == 9); memcpy (&m_vals[0], &(*vals.begin ()), sizeof m_vals); } void matrix::puts () const { for (short i = 0; i < 3; ++i) { for (short j = 0; j < 3; ++j) printf ("%*f\t", 10, m_vals[(i * 3) + j]); printf ("\n"); } } // ============================================================================= str matrix::stringRep () const { str val; for (short i = 0; i < 9; ++i) { if (i > 0) val += ' '; val += ftoa (m_vals[i]); } return val; } // ============================================================================= void matrix::zero () { memset (&m_vals[0], 0, sizeof (double) * 9); } // ============================================================================= matrix matrix::mult (matrix other) const { matrix val; val.zero (); for (short i = 0; i < 3; ++i) for (short j = 0; j < 3; ++j) for (short k = 0; k < 3; ++k) val[(i * 3) + j] += m_vals[(i * 3) + k] * other[(k * 3) + j]; return val; } // ============================================================================= matrix& matrix::operator= (matrix other) { memcpy (&m_vals[0], &other.m_vals[0], sizeof (double) * 9); return *this; } // ============================================================================= double matrix::determinant () const { return (val (0) * val (4) * val (8)) + (val (1) * val (5) * val (6)) + (val (2) * val (3) * val (7)) - (val (2) * val (4) * val (6)) - (val (1) * val (3) * val (8)) - (val (0) * val (5) * val (7)); } // ============================================================================= StringFormatArg::StringFormatArg (const str& v) { m_val = v; } StringFormatArg::StringFormatArg (const char& v) { m_val = v; } StringFormatArg::StringFormatArg (const uchar& v) { m_val = v; } StringFormatArg::StringFormatArg (const qchar& v) { m_val = v; } StringFormatArg::StringFormatArg (const float& v) { m_val = ftoa (v); } StringFormatArg::StringFormatArg (const double& v) { m_val = ftoa (v); } StringFormatArg::StringFormatArg (const vertex& v) { m_val = v.stringRep (false); } StringFormatArg::StringFormatArg (const matrix& v) { m_val = v.stringRep (); } StringFormatArg::StringFormatArg (const char* v) { m_val = v; } StringFormatArg::StringFormatArg (const strconfig& v) { m_val = v.value; } StringFormatArg::StringFormatArg (const intconfig& v) { m_val.number (v.value); } StringFormatArg::StringFormatArg (const floatconfig& v) { m_val.number (v.value); } StringFormatArg::StringFormatArg( const void* v ) { m_val.sprintf( "%p", v ); } // ============================================================================= File::File () { // Make a null file m_file = null; m_textstream = null; } File::File (str path, OpenType rtype) { m_file = null; open (path, rtype); } File::File (FILE* fp, OpenType rtype) { m_file = null; open (fp, rtype); } File::~File () { if (m_file) { m_file->close (); delete m_file; if (m_textstream) delete m_textstream; } } bool File::open (FILE* fp, OpenType rtype) { return open ("", rtype, fp); } bool File::open (str path, OpenType rtype, FILE* fp) { close (); if (!m_file) m_file = new QFile; m_file->setFileName (path); bool result; QIODevice::OpenMode mode = (rtype == Read) ? QIODevice::ReadOnly : (rtype == Write) ? QIODevice::WriteOnly : QIODevice::Append; if (fp) result = m_file->open (fp, mode); else result = m_file->open (mode); if (result) { m_textstream = new QTextStream (m_file); return true; } delete m_file; m_file = null; return false; } File::iterator File::begin() { return iterator (this); } File::iterator& File::end () { return m_endIterator; } void File::write (str msg) { m_file->write (msg.toUtf8 (), msg.length ()); } bool File::readLine (str& line) { if (!m_textstream || m_textstream->atEnd ()) return false; line = m_textstream->readLine (); return true; } bool File::atEnd () const { if (!m_textstream) fatal ("cannot use atEnd on a null file"); return m_textstream->atEnd (); } bool File::isNull () const { return m_file == null; } bool File::operator!() const { return isNull (); } void File::close () { if (!m_file) return; delete m_file; m_file = null; if (m_textstream) { delete m_textstream; m_textstream = null; } } bool File::flush () { return m_file->flush (); } File::operator bool () const { return !isNull (); } void File::rewind () { m_file->seek (0); } File::iterator::iterator (File* f) : m_file (f) { operator++ (); } void File::iterator::operator++ () { m_gotdata = m_file->readLine (m_text); } str File::iterator::operator* () { return m_text; } // The prime contestant for the weirdest operator== 2013 award? bool File::iterator::operator== (File::iterator& other) { return (other.m_file == null && !m_gotdata); } bool File::iterator::operator!= (File::iterator& other) { return !operator== (other); }