Ejemplo n.º 1
0
void DL_Jww::CreateMoji(DL_CreationInterface* creationInterface, CDataMoji& DMoji)
{
	string lName = HEX[DMoji.m_nGLayer > ArraySize(HEX)-1 ? ArraySize(HEX)-1: DMoji.m_nGLayer] + "-" +
													HEX[DMoji.m_nLayer > ArraySize(HEX)-1 ? ArraySize(HEX)-1: DMoji.m_nLayer];

	// add layer
	creationInterface->addLayer(DL_LayerData(lName,0));

	int width;
	if(DMoji.m_nPenWidth > 26)
		width = 0;
	else
		width = DMoji.m_nPenWidth;
	int color = colTable[DMoji.m_nPenColor > ArraySize(colTable)-1 ? ArraySize(colTable)-1 : DMoji.m_nPenColor];
	attrib = DL_Attributes(values[8],	  // layer
			       color,	      // color
			       width,	      // width
			       lTable[DMoji.m_nPenStyle > ArraySize(lTable)-1 ? ArraySize(lTable)-1 : DMoji.m_nPenStyle]);	  // linetype
	creationInterface->setAttributes(attrib);

	creationInterface->setExtrusion(0.0, 0.0, 1.0, 0.0 );

	DL_TextData d(
		// insertion point
		DMoji.m_start.x, DMoji.m_start.y, 0.0,
		// alignment point
		0.0, 0.0, 0.0,
		// height
		DMoji.m_dSizeY,
		// x scale
		1.0,
		// generation flags
		0,
		// h just
		0,
		// v just
		0,
		// text
		DMoji.m_string,
		// style
		string("japanese"),
		// angle
		DMoji.m_degKakudo / 180.0 * M_PI);

	creationInterface->addText(d);
#ifdef FINISHED
	QTextCodec* codec = QTextCodec::codecForName("SJIS");
	RS_TextData data3(RS_Vector(0.0, 0.0),
				10,//double height,
				10,//double width,
				RS2::VAlignMiddle,
				RS2::HAlignCenter,
				RS2::LeftToRight,
				RS2::AtLeast,
				1.0,//double lineSpacingFactor,
				RS_String(""),//const RS_String& text,
				RS_String(""),
				0.0,//double angle,
				RS2::Update);
	RS_Text*	text;
	data3.insertionPoint = RS_Vector(DMoji.m_start.x, DMoji.m_start.y);
	data3.height = DMoji.m_dSizeY;
	data3.width = DMoji.m_dSizeX;
	data3.valign = RS2::VAlignBottom;//VAlignMiddle;
	data3.halign = RS2::HAlignLeft;//HAlignCenter;
	data3.drawingDirection = RS2::LeftToRight;
	data3.lineSpacingStyle = RS2::Exact;
	data3.lineSpacingFactor = DMoji.m_dKankaku;//1.0;
	//コード変換
	size_t left = DMoji.m_string.length();
	char* sjis = (char *)DMoji.m_string.c_str();
	char buf[200];
	//memset(buf, NULL, 1000);
	char* p = buf;
	size_t bufleft = 200;
#ifdef _WINDOWS
	// エンコーディングの変換:iconvを使う場合
	iconv_t cd = iconv_open(UTF8_CES, SHIFTJIS_CES);
#ifdef	DEBUG
printf("sjis = %x, p = %x\n", sjis, p);
#endif
	size_t r = iconv(cd, (const char **)(&sjis), &left, &p, &bufleft);//const_cast<char**>
#ifdef	DEBUG
printf("sjis = %x, p = %x\n", sjis, p);
printf("sjis = %x %x %x %x, p = %x %x %x %x\n", sjis[0],sjis[1],sjis[2],sjis[3], buf[0],buf[1],buf[2],buf[3]);
printf("r = %d, left = %d, bufleft = %d\n", r, left, bufleft);
#endif
	*p = '\0';
	iconv_close(cd);
#else
//	int ires = SJIS2UTF8N(sjis,buf,bufleft);
	int nBytesOut;
	strcpy(buf,(const char *)CUnicodeF::sjis_to_euc((const unsigned char *)sjis/*, &nBytesOut*/));
//	QTextCodec* codec = QTextCodec::codecForName("eucJP");
//	data3.text = codec->toUnicode(buf);
#endif
//	data3.text = codec->toUnicode(sjis);
	data3.text = RS_String::fromUtf8(buf);
	data3.style = RS_String("japanese-euc");
	data3.angle = DMoji.m_degKakudo / 180.0 * M_PI;
#ifdef DEBUG
RS_DEBUG->setLevel(RS_Debug::D_DEBUGGING);
#endif
	data3.updateMode = RS2::Update;
	//jwDWORD m_nMojiShu;//文字種(斜体文字は20000、ボールド体は10000を加えた数値)

	text = new RS_Text(graphic, data3);
	RS2::LineType ltype = lTable[DMoji.m_nPenStyle];
	RS_Color col = colTable[DMoji.m_nPenColor];
	RS2::LineWidth lw = lWidth[DMoji.m_nPenWidth > 26 ? 0 : DMoji.m_nPenWidth];//RS2::Width12
	text->setPen(RS_Pen(col, RS2::Width08, ltype));

	//画層設定
	RS_String lName = HEX[DMoji.m_nGLayer > 0x0f ? 0: DMoji.m_nGLayer] + "-" +
		HEX[DMoji.m_nLayer > 0x0f ? 0 : DMoji.m_nLayer];
	if( graphic->findLayer(lName) == (RS_Layer*)NULL ){
#ifdef DEBUG
std::cout << lName.ascii() << std::endl;
#endif
		RS_Layer* layer = new RS_Layer(lName);
		graphic->addLayer(layer);
	}
	text->setLayer(lName);
	// add the line to the graphic
	graphic->addEntity(text);
#ifdef DEBUG
std::cout << data3.height << "  " << data3.width << std::endl;
std::cout << *text;
#endif
#endif
}
Ejemplo n.º 2
0
/**
 * Updates the sub entities of this dimension. Called when the
 * dimension or the position, alignment, .. changes.
 *
 * @param autoText Automatically reposition the text label
 */
void RS_DimAngular::update(bool /*autoText*/) {

    RS_DEBUG->print("RS_DimAngular::update");

    clear();

        if (isUndone()) {
                return;
        }

    // distance from entities (DIMEXO)
    double dimexo = getExtensionLineOffset();
    // extension line extension (DIMEXE)
    double dimexe = getExtensionLineExtension();
    // text height (DIMTXT)
    double dimtxt = getTextHeight();
    // text distance to line (DIMGAP)
    double dimgap = getDimensionLineGap();

    // find out center:
    RS_Vector center = getCenter();

    if (!center.valid) {
        return;
    }

    double ang1 = 0.0;
    double ang2 = 0.0;
    bool reversed = false;
    RS_Vector p1;
    RS_Vector p2;

    getAngles(ang1, ang2, reversed, p1, p2);

    double rad = edata.definitionPoint4.distanceTo(center);

    RS_Line* line;
    RS_Vector dir;
    double len;
    double dist;

    // 1st extension line:
    dist = center.distanceTo(p1);
    len = rad - dist + dimexe;
    dir.setPolar(1.0, ang1);
    line = new RS_Line(this,
                       RS_LineData(center + dir*dist + dir*dimexo,
                                   center + dir*dist + dir*len));
    line->setPen(RS_Pen(RS2::FlagInvalid));
    line->setLayer(NULL);
    addEntity(line);

    // 2nd extension line:
    dist = center.distanceTo(p2);
    len = rad - dist + dimexe;
    dir.setPolar(1.0, ang2);
    line = new RS_Line(this,
                       RS_LineData(center + dir*dist + dir*dimexo,
                                   center + dir*dist + dir*len));
    line->setPen(RS_Pen(RS2::FlagInvalid));
    line->setLayer(NULL);
    addEntity(line);

    // Create dimension line (arc):
    RS_Arc* arc = new RS_Arc(this,
                             RS_ArcData(center,
                                        rad, ang1, ang2, reversed));
    arc->setPen(RS_Pen(RS2::FlagInvalid));
    arc->setLayer(NULL);
    addEntity(arc);

    // length of dimension arc:
    double distance = arc->getLength();

    // do we have to put the arrows outside of the arc?
    bool outsideArrows = (distance<getArrowSize()*2);

    // arrow angles:
    double arrowAngle1, arrowAngle2;
    double arrowAng;
        if (rad>1.0e-6) {
                arrowAng = getArrowSize() / rad;
        }
        else {
                arrowAng = 0.0;
        }
    RS_Vector v1, v2;
    if (!arc->isReversed()) {
        v1.setPolar(rad, arc->getAngle1()+arrowAng);
    } else {
        v1.setPolar(rad, arc->getAngle1()-arrowAng);
    }
    v1+=arc->getCenter();
    arrowAngle1 = arc->getStartpoint().angleTo(v1);


    if (!arc->isReversed()) {
        v2.setPolar(rad, arc->getAngle2()-arrowAng);
    } else {
        v2.setPolar(rad, arc->getAngle2()+arrowAng);
    }
    v2+=arc->getCenter();
    arrowAngle2 = arc->getEndpoint().angleTo(v2);

    if (!outsideArrows) {
        arrowAngle1 = arrowAngle1+M_PI;
        arrowAngle2 = arrowAngle2+M_PI;
    }

    // Arrows:
    RS_SolidData sd;
    RS_Solid* arrow;

    // arrow 1
    arrow = new RS_Solid(this, sd);
    arrow->shapeArrow(arc->getStartpoint(),
                      arrowAngle1,
                      getArrowSize());
    arrow->setPen(RS_Pen(RS2::FlagInvalid));
    arrow->setLayer(NULL);
    addEntity(arrow);

    // arrow 2:
    arrow = new RS_Solid(this, sd);
    arrow->shapeArrow(arc->getEndpoint(),
                      arrowAngle2,
                      getArrowSize());
    arrow->setPen(RS_Pen(RS2::FlagInvalid));
    arrow->setLayer(NULL);
    addEntity(arrow);


    // text label:
    RS_TextData textData;
    RS_Vector textPos = arc->getMiddlePoint();

    RS_Vector distV;
    double textAngle;
    double dimAngle1 = textPos.angleTo(arc->getCenter())-M_PI/2.0;

    // rotate text so it's readable from the bottom or right (ISO)
    // quadrant 1 & 4
    if (dimAngle1>M_PI/2.0*3.0+0.001 ||
            dimAngle1<M_PI/2.0+0.001) {

        distV.setPolar(dimgap, dimAngle1+M_PI/2.0);
        textAngle = dimAngle1;
    }
    // quadrant 2 & 3
    else {
        distV.setPolar(dimgap, dimAngle1-M_PI/2.0);
        textAngle = dimAngle1+M_PI;
    }

    // move text away from dimension line:
    textPos+=distV;

    textData = RS_TextData(textPos,
                           dimtxt, 30.0,
                           RS2::VAlignBottom,
                           RS2::HAlignCenter,
                           RS2::LeftToRight,
                           RS2::Exact,
                           1.0,
                           getLabel(),
                           "standard",
                           textAngle);

    RS_Text* text = new RS_Text(this, textData);

    // move text to the side:
    text->setPen(RS_Pen(RS2::FlagInvalid));
    text->setLayer(NULL);
    addEntity(text);

    calculateBorders();
}