コード例 #1
0
int
main(void)
{
    try {
	int         i, stationery, page, regularfont, boldfont;
	const wstring infile = L"stationery.pdf";
	// This is where font/image/PDF input files live. Adjust as necessary.
	wstring      searchpath = L"../data";
	const double left = 55;
	const double right = 530;
	time_t      timer;
	struct tm   ltime;
	double      fontsize = 12, leading, y;
	double      sum, total;
	double      pagewidth = 595, pageheight = 842;
	wostringstream buf;
	wostringstream optlist;
	const wstring baseopt =
	    L"ruler        {   30 45     275   375   475} "
	    L"tabalignment {right left right right right} "
	    L"hortabmethod ruler fontsize 12 ";
	int         textflow;
	PDFlib      p;
	const wstring closingtext =
	    L"Terms of payment: <fillcolor={rgb 1 0 0}>30 days net. "
	    L"<fillcolor={gray 0}>90 days warranty starting at the day "
	    L"of sale. This warranty covers defects in workmanship only. "
	    L"<fontname=Helvetica-BoldOblique encoding=host>Kraxi Systems, "
	    L"Inc. <resetfont>will, at its option, repair or replace the "
	    L"product under the warranty. This warranty is not transferable. "
	    L"No returns or exchanges will be accepted for wet products.";

	struct articledata {
	    articledata(wstring n, double pr, int q):
		name(n), price(pr), quantity(q) {}
	    wstring name;
	    double price;
	    int quantity;
	};

	const articledata data[] = {
	    articledata(L"Super Kite",         20,     2),
	    articledata(L"Turbo Flyer",        40,     5),
	    articledata(L"Giga Trash",         180,    1),
	    articledata(L"Bare Bone Kit",      50,     3),
	    articledata(L"Nitty Gritty",       20,     10),
	    articledata(L"Pretty Dark Flyer",  75,     1),
	    articledata(L"Free Gift",          0,      1),
	};

        const int ARTICLECOUNT = sizeof(data) / sizeof(data[0]);

	static const wstring months[] = {
	    L"January", L"February", L"March", L"April", L"May", L"June",
	    L"July", L"August", L"September", L"October", L"November", L"December"
	};


	//  This means we must check return values of load_font() etc.
	p.set_parameter(L"errorpolicy", L"return");

	p.set_parameter(L"SearchPath", searchpath);

        if (p.begin_document(L"invoice.pdf", L"") == -1) {
	    wcerr << L"Error: " << p.get_errmsg() << endl; return(2);
        }

        p.set_info(L"Creator", L"invoice.cpp");
        p.set_info(L"Author", L"Thomas Merz");
        p.set_info(L"Title", L"PDFlib invoice generation demo (C++)");

        stationery = p.open_pdi_document(infile, L"");
        if (stationery == -1) {
	    wcerr << L"Error: " << p.get_errmsg() << endl;
            return 2;
        }

        page = p.open_pdi_page(stationery, 1, L"");
        if (page == -1) {
	    wcerr << L"Error: " << p.get_errmsg() << endl;
            return 2;
        }

        boldfont = p.load_font(L"Helvetica-Bold", L"host", L"");
	if (boldfont == -1) {
	    wcerr << L"Error: " << p.get_errmsg() << endl;
            return 2;
	}
        regularfont = p.load_font(L"Helvetica", L"host", L"");
	if (regularfont == -1) {
	    wcerr << L"Error: " << p.get_errmsg() << endl;
            return 2;
	}
        leading = fontsize + 2;

        // Establish coordinates with the origin in the upper left corner.
        p.begin_page_ext(pagewidth, pageheight, L"topdown");

        p.fit_pdi_page(page, 0, pageheight, L"");
        p.close_pdi_page(page);

        p.setfont(regularfont, 12);

        // Print the address
        y = 170;
        p.set_value(L"leading", leading);

        p.show_xy(L"John Q. Doe", left, y);
        p.continue_text(L"255 Customer Lane");
        p.continue_text(L"Suite B");
        p.continue_text(L"12345 User Town");
        p.continue_text(L"Everland");

        // Print the header and date

        p.setfont(boldfont, 12);
        y = 300;
        p.show_xy(L"INVOICE", left, y);

        time(&timer);
        ltime = *localtime(&timer);

        buf.str(L"");
        buf << months[ltime.tm_mon].c_str() << " " << ltime.tm_mday
            << ", " << ltime.tm_year + 1900;

        p.fit_textline(buf.str(), right, y, L"position {100 0}");

        // Print the invoice header line
        p.setfont(boldfont, 12);

        // L"position {0 0}" is left-aligned, L"position {100 0}" right-aligned
        y = 370;
        optlist << baseopt << " font " << boldfont;
	textflow = p.create_textflow(
                L"\tITEM\tDESCRIPTION\tQUANTITY\tPRICE\tAMOUNT",
                optlist.str());
        if (textflow == -1) {
	    wcerr << L"Error: " << p.get_errmsg() << endl;
            return 2;
	}
 
	p.fit_textflow(textflow, left, y-leading, right, y, L"");
	p.delete_textflow(textflow);

        // Print the article list

        p.setfont(regularfont, 12);
        y += 2*leading;
        total = 0;

        optlist.str(L"");
        optlist << baseopt << " font " << regularfont;

        for (i = 0; i < (int)ARTICLECOUNT; i++) {
            sum = data[i].price * data[i].quantity;

            buf.str(L"");
            buf << L"\t" << (i + 1) << L"\t" << data[i].name << L"\t"
                << data[i].quantity << L"\t";
            buf.setf(ios_base::fixed, ios_base::floatfield);
            buf.precision(2);
            buf << data[i].price << L"\t" << sum;

	    textflow = p.create_textflow(buf.str(), optlist.str());
	    if (textflow == -1) {
		wcerr << L"Error: " << p.get_errmsg() << endl;
		return 2;
	    }
	    p.fit_textflow(textflow, left, y-leading, right, y, L"");
	    p.delete_textflow(textflow);

            y += leading;
            total += sum;
        }

        y += leading;
        p.setfont(boldfont, 12);
        buf.str(L"");
        buf.setf(ios_base::fixed, ios_base::floatfield);
        buf.precision(2);
        buf << total;
        p.fit_textline(buf.str(), right, y, L"position {100 0}");

        // Print the closing text

        y += 5*leading;
        optlist.str(L"");
        optlist << L"alignment=justify leading=120% "
                << L"fontname=Helvetica fontsize=12 encoding=host ";

	textflow = p.create_textflow(closingtext, optlist.str());
	if (textflow == -1) {
	    wcerr << L"Error: " << p.get_errmsg() << endl;
            return 2;
	}
	p.fit_textflow(textflow, left, y+6*leading, right, y, L"");
	p.delete_textflow(textflow);

        p.end_page_ext(L"");
        p.end_document(L"");
        p.close_pdi_document(stationery);
    }

    catch (PDFlib::Exception &ex) {
	wcerr << L"PDFlib exception occurred in invoice sample: " << endl
	      << L"[" << ex.get_errnum() << L"] " << ex.get_apiname()
	      << L": " << ex.get_errmsg() << endl;
	return 2;
    }

    return 0;
}
コード例 #2
0
int
main(void)
{
    try {
        /* This is where the data files are. Adjust as necessary. */
        const wstring searchpath = L"../data";
        const wstring outfile = L"starter_type3font.pdf";

        wostringstream buf;
        PDFlib p;
        int font;
        double x, y;

        p.set_parameter(L"SearchPath", searchpath);

        /* This means we must check return values of load_font() etc. */
        p.set_parameter(L"errorpolicy", L"return");

        if (p.begin_document(outfile, L"") == -1) {
            wcerr << L"Error: " << p.get_errmsg() << endl;
            return 2;
        }

        p.set_info(L"Creator", L"PDFlib starter sample");
        p.set_info(L"Title", L"starter_type3font");

        /* Create the font "SimpleFont" containing the glyph L"l",
         * the glyph "space" for spaces and the glyph ".notdef" for any
         * undefined character
         */
        p.begin_font(L"SimpleFont", 0.001, 0.0, 0.0, 0.001, 0.0, 0.0, L"");
        p.begin_glyph(L".notdef", 266, 0, 0, 0, 0);
        p.end_glyph();
        p.begin_glyph(L"space", 266, 0, 0, 0, 0);
        p.end_glyph();
        p.begin_glyph(L"l", 266, 0, 0, 266, 570);
        p.setlinewidth(20);
        p.setdash(0, 0);
        x = 197;
        y = 10;
        p.moveto(x, y);
        y += 530;
        p.lineto(x, y);
        x -= 64;
        p.lineto(x, y);
        y -= 530;
        p.moveto(x, y);
        x += 128;
        p.lineto(x, y);

        p.stroke();
        p.end_glyph();

        p.end_font();

        /* Start page */
        p.begin_page_ext(0, 0, L"width=300 height=200");

        /* Load the new L"SimpleFont" font */
        font = p.load_font(L"SimpleFont", L"winansi", L"");

        if (font == -1) {
            wcerr << L"Error: " << p.get_errmsg() << endl; return 2;
        }

        /* Output the characters L"l" and L"space" of the L"SimpleFont" font.
         * The character L"x" is undefined and will be mapped to L".notdef"
         */
        buf.str(L"");
        buf << L"font=" << font << L" fontsize=40";
        p.fit_textline(L"lll lllxlll", 100, 100, buf.str());

        p.end_page_ext(L"");

        p.end_document(L"");
    }
    catch (PDFlib::Exception &ex) {
        wcerr << L"PDFlib exception occurred in invoice sample: " << endl
              << L"[" << ex.get_errnum() << L"] " << ex.get_apiname()
              << L": " << ex.get_errmsg() << endl;
        return 2;
    }

    return 0;
}
コード例 #3
0
int
main(void)
{
    try {

        /* This is where the data files are. Adjust as necessary. */
        string searchpath = "../data";
        string outfile = "starter_layer.pdf";

        PDFlib p;
        string rgb = "nesrin.jpg";
        string gray = "nesrin_gray.jpg";

#define BUFLEN 1024
        char buf[BUFLEN];
        int font, imageRGB, imageGray, layerRGB, layerGray, layerEN, layerDE;

        /* This means we must check return values of load_font() etc. */
        p.set_parameter("errorpolicy", "return");

        p.set_parameter("SearchPath", searchpath);


        /* Open the document with the "Layers" navigation tab visible */
        if (p.begin_document(outfile, "openmode=layers") == -1) {
            cerr << "Error: " << p.get_errmsg() << endl; return 2;
        }

        p.set_info("Creator", "PDFlib starter sample");
        p.set_info("Title", "starter_layer");


        /* Load the font */
        font = p.load_font("Helvetica", "winansi", "");

        if (font == -1) {
            cerr << "Error: " << p.get_errmsg() << endl; return 2;
        }

        /* Load the Grayscale image */
        imageGray = p.load_image("auto", gray, "");
        if (imageGray == -1) {
            cerr << "Error: " << p.get_errmsg() << endl; return 2;
        }

        /* Load the RGB image */
        imageRGB = p.load_image("auto", rgb, "");
        if (imageRGB == -1) {
            cerr << "Error: " << p.get_errmsg() << endl; return 2;
        }

	/*
	 * Define all layers which will be used, and their relationships.
         * This should be done before the first page if the layers are
	 * used on more than one page.
	 */

        /* Define the layer "RGB" */
        layerRGB = p.define_layer("RGB", "");

        /* Define the layer "Grayscale" which is hidden when opening the
         * document or printing it.
         */
        layerGray = p.define_layer("Grayscale",
                    "initialviewstate=false initialprintstate=false");

        /* At most one of the "Grayscale" and "RGB" layers should be visible */
        sprintf(buf, "group={%d %d}", layerGray, layerRGB);
        p.set_layer_dependency("Radiobtn", buf);

        /* Define the layer "English" */
        layerEN = p.define_layer("English", "");

        /* Define the layer "German" which is hidden when opening the document
         * or printing it.
         */
        layerDE = p.define_layer("German",
                    "initialviewstate=false initialprintstate=false");

        /* At most one of the "English" and "German" layers should be visible */
        sprintf(buf, "group={%d %d}", layerEN, layerDE);
        p.set_layer_dependency("Radiobtn", buf);

        /* Start page */
        p.begin_page_ext(0, 0, "width=a4.width height=a4.height");

	/* Place the RGB image on the layer "RGB" */
        p.begin_layer(layerRGB);
        p.fit_image(imageRGB, 100, 400,
                    "boxsize={400 300} fitmethod=meet");

	/* Place the Grayscale image on the layer "Grayscale" */
        p.begin_layer(layerGray);
        p.fit_image(imageGray, 100, 400,
                    "boxsize={400 300} fitmethod=meet");

	/* Place an English image caption on the layer "English" */
        p.begin_layer(layerEN);
        sprintf(buf, "font=%d fontsize=20", font);
        p.fit_textline("This is the Nesrin image.", 100, 370, buf);

	/* Place a German image caption on the layer "German".  */
        p.begin_layer(layerDE);
        sprintf(buf, "font=%d fontsize=20", font);
        p.fit_textline("Das ist das Nesrin-Bild.", 100, 370, buf);

        p.end_layer();

        p.end_page_ext("");

        p.end_document("");

    }

    catch (PDFlib::Exception &ex) {
        cerr << "PDFlib exception occurred:" << endl;
        cerr << "[" << ex.get_errnum() << "] " << ex.get_apiname()
            << ": " << ex.get_errmsg() << endl;
        return 2;
    }

    return 0;
}
コード例 #4
0
ファイル: invoice.cpp プロジェクト: yunxiaoxiao110/haiku
int
main(void)
{
    try {
        int         i, form, page, regularfont, boldfont;
        string      infile = "stationery.pdf";
        // This is where font/image/PDF input files live. Adjust as necessary.
        string      searchpath = "../data";
        const float col1 = 55;
        const float col2 = 100;
        const float col3 = 330;
        const float col4 = 430;
        const float col5 = 530;
        time_t      timer;
        struct tm   ltime;
        float       fontsize = 12, leading, y;
        float       sum, total;
        float       pagewidth = 595, pageheight = 842;
        char        buf[128];
        PDFlib      p;
        string      closingtext =
            "30 days warranty starting at the day of sale. "
            "This warranty covers defects in workmanship only. "
            "Kraxi Systems, Inc. will, at its option, repair or replace the "
            "product under the warranty. This warranty is not transferable. "
            "No returns or exchanges will be accepted for wet products.";

        struct articledata {
            articledata(string n, float pr, int q):
                name(n), price(pr), quantity(q) {}
            string name;
            float price;
            int quantity;
        };

        articledata data[] = {
            articledata("Super Kite",         20,     2),
            articledata("Turbo Flyer",        40,     5),
            articledata("Giga Trash",         180,    1),
            articledata("Bare Bone Kit",      50,     3),
            articledata("Nitty Gritty",       20,     10),
            articledata("Pretty Dark Flyer",  75,     1),
            articledata("Free Gift",          0,      1),
        };

#define ARTICLECOUNT (sizeof(data)/sizeof(data[0]))

        static const string months[] = {
            "January", "February", "March", "April", "May", "June",
            "July", "August", "September", "October", "November", "December"
        };


        // open new PDF file
        if (p.open_file("invoice.pdf") == -1) {
            cerr << "Error: " << p.get_errmsg() << endl;
            return(2);
        }

        p.set_parameter("SearchPath", searchpath);

        // This line is required to avoid problems on Japanese systems
        p.set_parameter("hypertextencoding", "host");

        p.set_info("Creator", "invoice.cpp");
        p.set_info("Author", "Thomas Merz");
        p.set_info("Title", "PDFlib invoice generation demo (C++)");

        form = p.open_pdi(infile, "", 0);
        if (form == -1) {
            cerr << "Error: " << p.get_errmsg() << endl;
            return(2);
        }

        page = p.open_pdi_page(form, 1, "");
        if (page == -1) {
            cerr << "Error: " << p.get_errmsg() << endl;
            return(2);
        }

        boldfont = p.load_font("Helvetica-Bold", "host", "");
        regularfont = p.load_font("Helvetica", "host", "");
        leading = fontsize + 2;

        // Establish coordinates with the origin in the upper left corner.
        p.set_parameter("topdown", "true");

        p.begin_page(pagewidth, pageheight);       // A4 page

        p.fit_pdi_page(page, 0, pageheight, "");
        p.close_pdi_page(page);

        p.setfont(regularfont, 12);

        // Print the address
        y = 170;
        p.set_value("leading", leading);

        p.show_xy("John Q. Doe", col1, y);
        p.continue_text("255 Customer Lane");
        p.continue_text("Suite B");
        p.continue_text("12345 User Town");
        p.continue_text("Everland");

        // Print the header and date

        p.setfont(boldfont, 12);
        y = 300;
        p.show_xy("INVOICE",       col1, y);

        time(&timer);
        ltime = *localtime(&timer);
        sprintf(buf, "%s %d, %d", months[ltime.tm_mon].c_str(),
                ltime.tm_mday, ltime.tm_year + 1900);
        p.fit_textline(buf, col5, y, "position {100 0}");

        // Print the invoice header line
        p.setfont(boldfont, 12);

        // "position {0 0}" is left-aligned, "position {100 0}" right-aligned
        y = 370;
        p.fit_textline("ITEM",             col1, y, "position {0 0}");
        p.fit_textline("DESCRIPTION",      col2, y, "position {0 0}");
        p.fit_textline("QUANTITY",         col3, y, "position {100 0}");
        p.fit_textline("PRICE",            col4, y, "position {100 0}");
        p.fit_textline("AMOUNT",           col5, y, "position {100 0}");

        // Print the article list

        p.setfont(regularfont, 12);
        y += 2*leading;
        total = 0;

        for (i = 0; i < (int)ARTICLECOUNT; i++) {
            sprintf(buf, "%d", i+1);
            p.show_xy(buf, col1, y);

            p.show_xy(data[i].name, col2, y);

            sprintf(buf, "%d", data[i].quantity);
            p.fit_textline(buf, col3, y, "position {100 0}");

            sprintf(buf, "%.2f", data[i].price);
            p.fit_textline(buf, col4, y, "position {100 0}");

            sum = data[i].price * data[i].quantity;
            sprintf(buf, "%.2f", sum);
            p.fit_textline(buf, col5, y, "position {100 0}");

            y += leading;
            total += sum;
        }

        y += leading;
        p.setfont(boldfont, 12);
        sprintf(buf, "%.2f", total);
        p.fit_textline(buf, col5, y, "position {100 0}");

        // Print the closing text

        y += 5*leading;
        p.setfont(regularfont, 12);
        p.set_value("leading", leading);
        p.show_boxed(closingtext,
                     col1, y + 4*leading, col5-col1, 4*leading, "justify", "");

        p.end_page();
        p.close();
        p.close_pdi(form);
    }
    catch (PDFlib::Exception &ex) {
        cerr << "PDFlib exception occurred in invoice sample: " << endl;
        cerr << "[" << ex.get_errnum() << "] " << ex.get_apiname()
             << ": " << ex.get_errmsg() << endl;
        return 2;
    }

    return 0;
}
コード例 #5
0
ファイル: invoice.cpp プロジェクト: Distrotech/PDFlib-Lite
int
main(void)
{
    try {
	int         i, stationery, page, regularfont, boldfont;
	string      infile = "stationery.pdf";
	// This is where font/image/PDF input files live. Adjust as necessary.
	string      searchpath = "../data";
	const double left = 55;
	const double right = 530;
	time_t      timer;
	struct tm   ltime;
	double      fontsize = 12, leading, y;
	double      sum, total;
	double      pagewidth = 595, pageheight = 842;
	char        buf[256];
	char        optlist[256];
	char        baseopt[256] =
	    "ruler        {   30 45     275   375   475} "
	    "tabalignment {right left right right right} "
	    "hortabmethod ruler fontsize 12 ";
	int         textflow;
	PDFlib      p;
	string      closingtext =
	    "Terms of payment: <fillcolor={rgb 1 0 0}>30 days net. "
	    "<fillcolor={gray 0}>90 days warranty starting at the day of sale. "
	    "This warranty covers defects in workmanship only. "
	    "<fontname=Helvetica-BoldOblique encoding=host>Kraxi Systems, Inc. "
	    "<resetfont>will, at its option, repair or replace the "
	    "product under the warranty. This warranty is not transferable. "
	    "No returns or exchanges will be accepted for wet products.";

	struct articledata {
	    articledata(string n, double pr, int q):
		name(n), price(pr), quantity(q){}
	    string name;
	    double price;
	    int quantity;
	};

	articledata data[] = {
	    articledata("Super Kite",         20,     2),
	    articledata("Turbo Flyer",        40,     5),
	    articledata("Giga Trash",         180,    1),
	    articledata("Bare Bone Kit",      50,     3),
	    articledata("Nitty Gritty",       20,     10),
	    articledata("Pretty Dark Flyer",  75,     1),
	    articledata("Free Gift",          0,      1),
	};

#define ARTICLECOUNT (sizeof(data)/sizeof(data[0]))

	static const string months[] = {
	    "January", "February", "March", "April", "May", "June",
	    "July", "August", "September", "October", "November", "December"
	};


	//  This means we must check return values of load_font() etc.
	p.set_parameter("errorpolicy", "return");

	p.set_parameter("SearchPath", searchpath);

	// This line is required to avoid problems on Japanese systems
	p.set_parameter("hypertextencoding", "host");

        if (p.begin_document("invoice.pdf", "") == -1) {
	    cerr << "Error: " << p.get_errmsg() << endl; return(2);
        }

        p.set_info("Creator", "invoice.cpp");
        p.set_info("Author", "Thomas Merz");
        p.set_info("Title", "PDFlib invoice generation demo (C++)");

        stationery = p.open_pdi_document(infile, "");
        if (stationery == -1) {
	    cerr << "Error: " << p.get_errmsg() << endl; return(2);
        }

        page = p.open_pdi_page(stationery, 1, "");
        if (page == -1) {
	    cerr << "Error: " << p.get_errmsg() << endl; return(2);
        }

        boldfont = p.load_font("Helvetica-Bold", "host", "");
	if (boldfont == -1) {
	    cerr << "Error: " << p.get_errmsg() << endl; return(2);
	}
        regularfont = p.load_font("Helvetica", "host", "");
	if (regularfont == -1) {
	    cerr << "Error: " << p.get_errmsg() << endl; return(2);
	}
        leading = fontsize + 2;

        // Establish coordinates with the origin in the upper left corner.
        p.begin_page_ext(pagewidth, pageheight, "topdown");

        p.fit_pdi_page(page, 0, pageheight, "");
        p.close_pdi_page(page);

        p.setfont(regularfont, 12);

        // Print the address
        y = 170;
        p.set_value("leading", leading);

        p.show_xy("John Q. Doe", left, y);
        p.continue_text("255 Customer Lane");
        p.continue_text("Suite B");
        p.continue_text("12345 User Town");
        p.continue_text("Everland");

        // Print the header and date

        p.setfont(boldfont, 12);
        y = 300;
        p.show_xy("INVOICE",       left, y);

        time(&timer);
        ltime = *localtime(&timer);
        sprintf(buf, "%s %d, %d", months[ltime.tm_mon].c_str(),
			    ltime.tm_mday, ltime.tm_year + 1900);
        p.fit_textline(buf, right, y, "position {100 0}");

        // Print the invoice header line
        p.setfont(boldfont, 12);

        // "position {0 0}" is left-aligned, "position {100 0}" right-aligned
        y = 370;
	sprintf(buf, "\tITEM\tDESCRIPTION\tQUANTITY\tPRICE\tAMOUNT");

	sprintf(optlist, "%s font %d ", baseopt, boldfont);

	textflow = p.create_textflow(buf, optlist);
        if (textflow == -1) {
	    cerr << "Error: " << p.get_errmsg() << endl; return(2);
	}
 
	p.fit_textflow(textflow, left, y-leading, right, y, "");
	p.delete_textflow(textflow);

        // Print the article list

        p.setfont(regularfont, 12);
        y += 2*leading;
        total = 0;

	sprintf(optlist, "%s font %d ", baseopt, regularfont);

        for (i = 0; i < (int)ARTICLECOUNT; i++) {
            sum = data[i].price * data[i].quantity;

	    sprintf(buf, "\t%d\t%s\t%d\t%.2f\t%.2f", 
		i+1, (char *)data[i].name.c_str(), data[i].quantity, 
		data[i].price, sum);

	    textflow = p.create_textflow(buf, optlist);
	    if (textflow == -1) {
		cerr << "Error: " << p.get_errmsg() << endl;
		return(2);
	    }
	    p.fit_textflow(textflow, left, y-leading, right, y, "");
	    p.delete_textflow(textflow);

            y += leading;
            total += sum;
        }

        y += leading;
        p.setfont(boldfont, 12);
        sprintf(buf, "%.2f", total);
        p.fit_textline(buf, right, y, "position {100 0}");

        // Print the closing text

        y += 5*leading;
	strcpy(optlist, "alignment=justify leading=120% ");
	strcat(optlist, "fontname=Helvetica fontsize=12 encoding=host ");

	textflow = p.create_textflow(closingtext, optlist);
	if (textflow == -1) {
	    cerr << "Error: " << p.get_errmsg() << endl; return(2);
	}
	p.fit_textflow(textflow, left, y+6*leading, right, y, "");
	p.delete_textflow(textflow);

        p.end_page_ext("");
        p.end_document("");
        p.close_pdi_document(stationery);
    }

    catch (PDFlib::Exception &ex) {
	cerr << "PDFlib exception occurred in invoice sample: " << endl;
	cerr << "[" << ex.get_errnum() << "] " << ex.get_apiname()
	    << ": " << ex.get_errmsg() << endl;
	return 2;
    }

    return 0;
}
コード例 #6
0
int
main(void)
{
    try {
	/* This is where the data files are. Adjust as necessary.*/
	const wstring searchpath = L"../data";

	PDFlib p;
	const wstring imagefile = L"nesrin.jpg";
	int font, image, spot, icc;
	wostringstream optlist;

	//  This means we must check return values of load_font() etc.
	p.set_parameter(L"errorpolicy", L"return");

	p.set_parameter(L"SearchPath", searchpath);

	if (p.begin_document(L"starter_pdfx3.pdf", L"pdfx=PDF/X-3:2003")
                                                                    == -1) {
	    wcerr << L"Error: " << p.get_errmsg() << endl;
            return 2;
	}

	p.set_info(L"Creator", L"PDFlib starter sample");
	p.set_info(L"Title", L"starter_pdfx3");

	/*
	 * You can use one of the Standard output intents (e.g. for SWOP
	 * printing) which do not require an ICC profile:

	p.load_iccprofile(L"CGATS TR 001", L"usage=outputintent");

	 * However, if you use ICC or Lab color you must load an ICC
	 * profile as output intent:
	 */
	if (p.load_iccprofile(L"ISOcoated.icc", L"usage=outputintent") == -1) {
	    wcerr << L"Error: " << p.get_errmsg() << endl;
	    wcerr << L"Please install the ICC profile package from " <<
		L"www.pdflib.com to run the PDF/X starter sample." << endl;
	    return 2;
	}

	p.begin_page_ext(595, 842, L"");

	/* Font embedding is required for PDF/X */
	font = p.load_font(L"LuciduxSans-Oblique", L"winansi", L"embedding");
	if (font == -1) {
	    wcerr << L"Error: " << p.get_errmsg() << endl;
            return 2;
	}
	p.setfont(font, 24);

	spot = p.makespotcolor(L"PANTONE 123 C");
	p.setcolor(L"fill", L"spot", spot, 1.0, 0.0, 0.0);
	p.fit_textline(L"PDF/X-3:2003 starter", 50, 700, L"");

	/* The RGB image below needs an ICC profile; we use sRGB. */
	icc = p.load_iccprofile(L"sRGB", L"");
        optlist.str(L"");
        optlist << L"iccprofile=" << icc;
	image = p.load_image(L"auto", imagefile, optlist.str());

	if (image == -1) {
	    wcerr << L"Error: " << p.get_errmsg() << endl;
            return 2;
	}

	p.fit_image(image, 0.0, 0.0, L"scale=0.5");
	p.end_page_ext(L"");
	p.end_document(L"");
    }
    catch (PDFlib::Exception &ex) {
	wcerr << L"PDFlib exception occurred:" << endl
	      << L"[" << ex.get_errnum() << L"] " << ex.get_apiname()
	      << L": " << ex.get_errmsg() << endl;
	return 2;
    }

    return 0;
}
コード例 #7
0
int
main(void)
{
    try {
	/* This is where the data files are. Adjust as necessary. */
	const wstring searchpath = L"../data";

	PDFlib p;
	const wstring imagefile = L"nesrin.jpg";

	int font;
	int image;

	//  This means we must check return values of load_font() etc.
	p.set_parameter(L"errorpolicy", L"return");

	p.set_parameter(L"SearchPath", searchpath);

	if (p.begin_document(L"starter_pdfa1b.pdf",
                                        L"pdfa=PDF/A-1b:2005") == -1) {
	    wcerr << L"Error: " << p.get_errmsg() << endl;
            return 2;
	}

	/*
	 * We use sRGB as output intent since it allows the color
	 * spaces CIELab, ICC-based, grayscale, and RGB.
	 *
	 * If you need CMYK color you must use a CMYK output profile.
	 */

	p.load_iccprofile(L"sRGB", L"usage=outputintent");

	p.set_info(L"Creator", L"PDFlib starter sample");
	p.set_info(L"Title", L"starter_pdfa1b");

	p.begin_page_ext(595, 842, L"");

	/* Font embedding is required for PDF/A */
	font = p.load_font(L"LuciduxSans-Oblique", L"winansi", L"embedding");
	if (font == -1) {
	    wcerr << L"Error: " << p.get_errmsg() << endl;
            return 2;
	}
	p.setfont(font, 24);

	p.fit_textline(L"PDF/A-1b:2005 starter", 50, 700, L"");

	/* We can use an RGB image since we already supplied an
	 * output intent profile.
	 */
	image = p.load_image(L"auto", imagefile, L"");

	if (image == -1){
	    wcerr << L"Error: " << p.get_errmsg() << endl;
            return 2;
	}

	/* Place the image at the bottom of the page */
	p.fit_image(image, 0.0, 0.0, L"scale=0.5");

	p.end_page_ext(L"");
	p.close_image(image);

	p.end_document(L"");
    }
    catch (PDFlib::Exception &ex) {
	wcerr << L"PDFlib exception occurred:" << endl
	      << L"[" << ex.get_errnum() << L"] " << ex.get_apiname()
	      << L": " << ex.get_errmsg() << endl;
	return 2;
    }

    return 0;
}
コード例 #8
0
int
main(void)
{
    try {
        /* This is where the data files are. Adjust as necessary. */
        const wstring searchpath = L"../data";
        const wstring outfile = L"starter_graphics.pdf";

        PDFlib p;
        double xt=20, x = 210, y=770, dy=90;
        int font;

        p.set_parameter(L"SearchPath", searchpath);

        /* This means we must check return values of load_font() etc. */
        p.set_parameter(L"errorpolicy", L"return");

        if (p.begin_document(outfile, L"") == -1) {
            wcerr << L"Error: " << p.get_errmsg() << endl; return 2;
        }

        p.set_info(L"Creator", L"PDFlib starter sample");
        p.set_info(L"Title", L"starter_graphics");

        font = p.load_font(L"Helvetica", L"winansi", L"");
        if (font == -1) {
            wcerr << L"Error: " << p.get_errmsg() << endl;
            return 2;
        }

        /* Start an A4 page */
        p.begin_page_ext(0, 0, L"width=a4.width height=a4.height");

        /* Set the font */
        p.setfont(font, 14);

        /* Set the line width */
        p.setlinewidth(2.0);

        /* Set the stroke color */
        p.setcolor(L"stroke", L"rgb", 0.0, 0.5, 0.5, 0.0);

        /* Set the fill color */
        p.setcolor(L"fill", L"rgb", 0.0, 0.85, 0.85, 0.0);


        /* -------------
         * Stroke a line
         * -------------
         */

        /* Set the current point for graphics output */
        p.moveto(x, y);

        /* Draw a line from the current point to the supplied point */
        p.lineto(x+300, y+50);

        /* Stroke the path using the current line width and stroke color, and
         * clear it
         */
        p.stroke();

        /* Output some descriptive black text */
        p.fit_textline(L"lineto() and stroke()", xt, y, L"fillcolor={gray 0}");


        /* --------------
         * Stroke a curve
         * --------------
         */

        /* Set the current point for graphics output */
        p.moveto(x, y-=dy);

        /* Draw a Bézier curve from the current point to (x3, y3), using three
         * control points
         */
        p.curveto(x+50, y+40, x+200, y+80, x+300, y+30);

        /* Stroke the path using the current line width and stroke color, and
         * clear it
         */
        p.stroke();

        /* Output some descriptive black text */
        p.fit_textline(L"curveto() and stroke()", xt, y, L"fillcolor={gray 0}");


        /* ---------------
         * Stroke a circle
         * ---------------
         */

        /* Draw a circle at position (x, y) with a radius of 40 */
        p.circle(x, y-=dy, 40);

        /* Stroke the path using the current line width and stroke color, and
         * clear it
         */
        p.stroke();

        /* Output some descriptive black text */
        p.fit_textline(L"circle() and stroke()", xt, y, L"fillcolor={gray 0}");


        /* ---------------------
         * Stroke an arc segment
         * ---------------------
         */

        /* Draw an arc segment counterclockwise at position (x, y) with a radius
         * of 40 starting at an angle of 90 degrees and ending at 180 degrees
         */
        p.arc(x, y-=dy+20, 40, 90, 180);

        /* Stroke the path using the current line width and stroke color, and
         * clear it
         */
        p.stroke();

        /* Output some descriptive black text */
        p.fit_textline(L"arc() and stroke()", xt, y, L"fillcolor={gray 0}");


        /* ------------------
         * Stroke a rectangle
         * ------------------
         */

        /* Draw a rectangle at position (x, y) with a width of 200 and a height
         * of 50
         */
        p.rect(x, y-=dy, 200, 50);

        /* Stroke the path using the current line width and stroke color, and
         * clear it
         */
        p.stroke();

        /* Output some descriptive black text */
        p.fit_textline(L"rect() and stroke()", xt, y, L"fillcolor={gray 0}");


        /* ----------------
         * Fill a rectangle
         * ----------------
         */

        /* Draw a rectangle at position (x, y) with a width of 200 and a height
         * of 50
         */
        p.rect(x, y-=dy, 200, 50);

        /* Fill the path using current fill color, and clear it */
        p.fill();

        /* Output some descriptive black text */
        p.fit_textline(L"rect() and fill()", xt, y, L"fillcolor={gray 0}");


        /* ---------------------------
         * Fill and stroke a rectangle
         * ---------------------------
         */

        /* Draw a rectangle at position (x, y) with a width of 200 and a height
         * of 50
         */
        p.rect(x, y-=dy, 200, 50);

        /* Fill and stroke the path using the current line width, fill color,
         * and stroke color, and clear it
         */
        p.fill_stroke();

        /* Output some descriptive black text */
        p.fit_textline(L"rect() and fill_stroke()", xt, y,
            L"fillcolor={gray 0}");


        /* -------------------------------------------------------------
         * Draw a line and an arc, close the path and fill and stroke it
         * -------------------------------------------------------------
         */

        /* Set the current point for graphics output */
        p.moveto(x-40, y-=dy);

        /* Draw a line from the current point to the supplied point */
        p.lineto(x, y);

        /* Draw an arc segment counterclockwise at position (x, y) with a radius
         * of 40 starting at an angle of 90 degrees and ending at 180 degrees
         */
        p.arc(x, y, 40, 90, 180);

        /* Close the path and stroke and fill it, i.e. close the current subpath
         * (add a straight line segment from the current point to the starting
         * point of the path), and stroke and fill the complete current path
         */
        p.closepath_fill_stroke();

        /* Output some descriptive black text */
        p.fit_textline(L"lineto(), arc(), and", xt, y+20,
            L"fillcolor={gray 0}");
        p.fit_textline(L"closepath_fill_stroke()", xt, y,
            L"fillcolor={gray 0}");


        /* -----------------------------------------------------------------
         * Draw a rectangle and use it as the clipping a path. Draw and fill
         * a circle and clip it according to the clipping path defined.
         * -----------------------------------------------------------------
         */

        /* Save the current graphics state including the current clipping
         * path which is set to the entire page by default
         */
        p.save();

        /* Draw a rectangle at position (x, y) with a width of 200 and a height
         * of 50
         */
        p.rect(x, y-=dy, 200, 50);

        /* Use the current path as the clipping path for subsequent operations
         */
        p.clip();

        /* Draw a circle at position (x, y) with a radius of 100 */
        p.circle(x, y, 80);

        /* Fill the path with the current fill color and clear it
         */
        p.fill();

        /* Restore the graphics state which has been saved above */
        p.restore();

        /* Output some descriptive black text */
        p.fit_textline(L"rect(), clip(),", xt, y+20,
            L"fillcolor={gray 0}");
        p.fit_textline(L"circle(), and fill()", xt, y,
            L"fillcolor={gray 0}");

        p.end_page_ext(L"");

        p.end_document(L"");
    }
    catch (PDFlib::Exception &ex) {
        wcerr << L"PDFlib exception occurred:" << endl
              << L"[" << ex.get_errnum() << L"] " << ex.get_apiname()
              << L": " << ex.get_errmsg() << endl;
        return 2;
    }

    return 0;
}
コード例 #9
0
int
main(void)
{
    try {

        /* This is where the data files are. Adjust as necessary. */
        const wstring searchpath = L"../data";
        const wstring outfile = L"starter_color.pdf";

        PDFlib p;
        int font, spot;
        int y = 800, x = 50, xoffset1=80, xoffset2 = 100, yoffset = 70, r = 30;
        double icchandle;

        p.set_parameter(L"SearchPath", searchpath);

        /* This means we must check return values of load_font() etc. */
        p.set_parameter(L"errorpolicy", L"return");

        if (p.begin_document(outfile, L"") == -1) {
            wcerr << L"Error: " << p.get_errmsg() << endl;
            return 2;
        }

        p.set_info(L"Creator", L"PDFlib starter sample");
        p.set_info(L"Title", L"starter_color");

        /* Load the font */
        font = p.load_font(L"Helvetica", L"winansi", L"");

        if (font == -1) {
            wcerr << L"Error: " << p.get_errmsg() << endl;
            return 2;
        }

        /* Start the page */
        p.begin_page_ext(0, 0, L"width=a4.width height=a4.height");

        p.setfont(font, 14);


        /* -------------------------------------------------------------------
         * Use default colors
         *
         * If no special color is set the default values will be used. The
         * default values are restored at the beginning of the page.
         * 0=black in the Gray color space is the default fill and stroke
         * color in many cases, as shown in our sample.
         * -------------------------------------------------------------------
         */

        /* Fill a circle with the default black fill color */
        p.circle(x, y-=yoffset, r);
        p.fill();

        /* Output text with default black fill color */
        p.fit_textline( L"Circle and text filled with default color {gray 0}",
                x+xoffset2, y, L"");

        p.fit_textline(L"1.",  x+xoffset1, y, L"");

        /* -------------------------------------------------------------------
         * Use the Gray color space
         *
         * Gray color is defined by Gray values between 0=black and 1=white.
         * -------------------------------------------------------------------
         */

        /* Using setcolor(), set the current fill color to a light gray
         * represented by (0.5, 0, 0, 0) which defines 50% gray. Since gray
         * colors are defined by only one value, the last three function
         * parameters must be set to 0.
         */
        p.setcolor(L"fill", L"gray", 0.5, 0, 0, 0);

        /* Fill a circle with the current fill color defined above */
        p.circle(x, y-=yoffset, r);
        p.fill();

        /* Output text with the current fill color */
        p.fit_textline(L"Circle and text filled with {gray 0.5}",
                x+xoffset2, y, L"");

        /* Alternatively, you can set the fill color in the call to
         * fit_textline() using the L"fillcolor" option. This case applies the
         * fill color just the single function call. The current fill color
         * won't be affected.
         */
        p.fit_textline(L"2.", x+xoffset1, y, L"fillcolor={gray 0.5}");


        /* --------------------------------------------------------------------
         * Use the RGB color space
         *
         * RGB color is defined by RGB triples, i.e. three values between 0 and
         * 1 specifying the percentage of red, green, and blue.
         * (0, 0, 0) is black and (1, 1, 1) is white. The commonly used RGB
         * color values in the range 0...255 must be divided by 255 in order to
         * scale them to the range 0...1 as required by PDFlib.
         * --------------------------------------------------------------------
         */

        /* Use setcolor() to set the fill color to a grass-green
         * represented by (0.1, 0.95, 0.3, 0) which defines 10% red, 95% green,
         * 30% blue. Since RGB colors are defined by only three values, the last
         * function parameter must be set to 0.
         */
        p.setcolor(L"fill", L"rgb", 0.1, 0.95, 0.3, 0);

        /* Draw a circle with the current fill color defined above */
        p.circle(x, y-=yoffset, r);
        p.fill();

        /* Output a text line with the RGB fill color defined above */
        p.fit_textline(L"Circle and text filled with {rgb 0.1 0.95 0.3}",
                x+xoffset2, y, L"");

        /* Alternatively, you can set the fill color in the call to
         * fit_textline() using the L"fillcolor" option. This case applies the
         * fill color just the single function call. The current fill color
         * won't be affected.
         */
        p.fit_textline(L"3.", x+xoffset1, y, L"fillcolor={rgb 0.1 0.95 0.3}");


        /* --------------------------------------------------------------------
         * Use the CMYK color space
         *
         * CMYK color is defined by four CMYK values between 0 = no color and
         * 1 = full color representing cyan, magenta, yellow, and black values;
         * (0, 0, 0, 0) is white and (0, 0, 0, 1) is black.
         * --------------------------------------------------------------------
         */

        /* Use setcolor() to set the current fill color to a pale
         * orange, represented by (0.1, 0.7, 0.7, 0.1) which defines 10% Cyan,
         * 70% Magenta, 70% Yellow, and 10% Black.
         */
        p.setcolor(L"fill", L"cmyk", 0.1, 0.7, 0.7, 0.1);

        /* Fill a circle with the current fill color defined above */
        p.circle(x, y-=yoffset, r);
        p.fill();

        /* Output a text line with the CMYK fill color defined above */
        p.fit_textline(L"Circle and text filled with {cmyk 0.1 0.7 0.7 0.1}",
                x+xoffset2, y, L"");

        /* Alternatively, you can set the fill color in the call to
         * fit_textline() using the L"fillcolor" option. This case applies the
         * fill color just the single function call. The current fill color
         * won't be affected.
         */
        p.fit_textline(L"4.", x+xoffset1, y,
                                L"fillcolor={cmyk 0.1 0.7 0.7 0.1}");


        /* --------------------------------------------------------------------
         * Use a Lab color
         *
         * Device-independent color in the CIE L*a*b* color space is specified
         * by a luminance value in the range 0-100 and two color values in the
         * range -127 to 128. The first value contains the green-red axis,
         * while the second value contains the blue-yellow axis.
         * --------------------------------------------------------------------
         */

        /* Set the current fill color to a loud blue, represented by
         * (100, -127, -127, 0). Since Lab colors are defined by only three
         * values, the last function parameter must be set to 0.
         */
        p.setcolor(L"fill", L"lab", 100, -127, -127, 0);

        /* Fill a circle with the fill color defined above */
        p.circle(x, y-=yoffset, r);
        p.fill();

        /* Output a text line with the Lab fill color defined above */
        p.fit_textline(L"Circle and text filled with {lab 100 -127 -127}",
                x+xoffset2, y, L"");

        /* Alternatively, you can set the fill color in the call to
         * fit_textline() using the L"fillcolor" option. This case applies the
         * fill color just the single function call. The current fill color
         * won't be affected.
         */
        p.fit_textline(L"5.", x+xoffset1, y, L"fillcolor={lab 100 -127 -127}");


        /* ---------------------------------------------------------------
         * Use an ICC based color
         *
         * ICC-based colors are specified with the help of an ICC profile.
         * ---------------------------------------------------------------
         */

        /* Load the sRGB profile. sRGB is guaranteed to be always available */
        icchandle = p.load_iccprofile(L"sRGB", L"usage=iccbased");

        /* Set the sRGB profile. (Accordingly, you can use
         * L"setcolor:iccprofilergb" or L"setcolor:iccprofilegray" with an
         * appropriate profile)
         */
        p.set_value(L"setcolor:iccprofilergb", icchandle);

        /* Use setcolor() with the L"iccbasedrgb" color space to set the current
         * fill and stroke color to a grass-green, represented
         * by the RGB color values (0.1 0.95 0.3 0) which define 10% Red,
         * 95% Green, and 30% Blue. Since iccbasedrgb colors are defined by only
         * three values, the last function parameter must be set to 0.
         */
        p.setcolor(L"fill", L"iccbasedrgb", 0.1, 0.95, 0.3, 0);

        /* Fill a circle with the ICC based RGB fill color defined above */
        p.circle(x, y-=yoffset, r);
        p.fill();

        /* Output a text line with the ICC based RGB fill color defined above */
        p.fit_textline(
                L"Circle and text filled with {iccbasedrgb 0.1 0.95 0.3}",
                x+xoffset2, y, L"");

        /* Alternatively, you can set the fill color in the call to
         * fit_textline() using the L"fillcolor" option. This case applies the
         * fill color just the single function call. The current fill color
         * won't be affected.
         */
        p.fit_textline(L"6.", x+xoffset1, y,
                L"fillcolor={iccbasedrgb 0.1 0.95 0.3}");


        /* --------------------------------------------------------------------
         * Use a spot color
         *
         * Spot color (separation color space) is a predefined or arbitrarily
         * named custom color with an alternate representation in one of the
         * other color spaces above; this is generally used for preparing
         * documents which are intended to be printed on an offset printing
         * machine with one or more custom colors. The tint value (percentage)
         * ranges from 0 = no color to 1 = maximum intensity of the spot color.
         * --------------------------------------------------------------------
         */

        /* Define the spot color L"PANTONE 281 U" from the builtin color
         * library PANTONE
         */
        spot = p.makespotcolor(L"PANTONE 281 U");

        /* Set the spot color L"PANTONE 281 U" with a tint value of 1 (=100%)
         * and output some text. Since spot colors are defined by only two
         * values, the last two function parameters must be set to 0.
         */
        p.setcolor(L"fill", L"spot", spot, 1.0, 0, 0);

        /* Fill a circle with the ICC based RGB fill color defined above */
        p.circle(x, y-=yoffset, r);
        p.fill();

        p.fit_textline(
                L"Circle and text filled with {spotname {PANTONE 281 U} 1}",
                x+xoffset2, y, L"");

        /* Alternatively, you can set the fill color in the call to
         * fit_textline() using the L"fillcolor" option. This case applies the
         * fill color just the single function call. The current fill color
         * won't be affected.
         */
        p.fit_textline(L"7.", x+xoffset1, y,
            L"fillcolor={spotname {PANTONE 281 U} 1}");

        /* or */
        wostringstream buf;
        buf.str(L"");
        buf << L"fillcolor={spot " << spot << L" 1}";
        p.fit_textline(L"7.", x+xoffset1, y, buf.str());


        /* ----------------------------------------------------------
         * For using the Pattern color space, see the Cookbook topics
         * graphics/fill_pattern and images/background_pattern.
         * ----------------------------------------------------------
         */

        /* ---------------------------------------------------------
         * For using the Shading color space, see the Cookbook topic
         * color/color_gradient.
         * ---------------------------------------------------------
         */

        p.end_page_ext(L"");

        p.end_document(L"");
    }
    catch (PDFlib::Exception &ex) {
        wcerr << L"PDFlib exception occurred:" << endl
              << L"[" << ex.get_errnum() << L"] " << ex.get_apiname()
              << L": " << ex.get_errmsg() << endl;
        return 2;
    }

    return 0;
}
コード例 #10
0
int
main(void)
{
    try {

        /* This is where the data files are. Adjust as necessary. */
        string searchpath = "../data";
        string outfile = "starter_image.pdf";

#define BUFLEN 1024
        char buf[BUFLEN];
        PDFlib p;
        string imagefile = "lionel.jpg";
        int font, image;
        int bw = 400, bh = 200;
        int x = 20, y = 580, yoffset = 260;

        p.set_parameter("SearchPath", searchpath);

        /* This means we must check return values of load_font() etc. */
        p.set_parameter("errorpolicy", "return");

        if (p.begin_document(outfile, "") == -1) {
            cerr << "Error: " << p.get_errmsg() << endl; return 2;
        }

        p.set_info("Creator", "PDFlib starter sample");
        p.set_info("Title", "starter_image");

        /* For PDFlib Lite: change "unicode" to "winansi" */
        font = p.load_font("Helvetica", "winansi", "");
        if (font == -1) {
            cerr << "Error: " << p.get_errmsg() << endl; return 2;
        }

        /* Load the image */
        image = p.load_image("auto", imagefile, "");
        if (image == -1) {
            cerr << "Error: " << p.get_errmsg() << endl; return 2;
        }

        /* Start page 1 */
        p.begin_page_ext(0, 0, "width=a4.width height=a4.height");
        p.setfont(font, 12);


        /* ------------------------------------
         * Place the image in its original size
         * ------------------------------------
         */

        /* Position the image in its original size with its lower left corner
         * at the reference point (20, 380)
         */
        p.fit_image(image, 20, 380, "");

        /* Output some descriptive text */
        p.fit_textline(
            "The image is placed with the lower left corner in its original "
            "size at reference point (20, 380):", 20, 820, "");
        p.fit_textline("fit_image(image, 20, 380, \"\");", 20, 800, "");


        /* --------------------------------------------------------
         * Place the image with scaling and orientation to the west
         * --------------------------------------------------------
         */

        /* Position the image with its lower right corner at the reference
         * point (580, 20).
         * "scale=0.5" scales the image by 0.5.
         * "orientate=west" orientates the image to the west.
         */
        p.fit_image(image, 580, 20,
            "scale=0.5 position={right bottom} orientate=west");

        /* Output some descriptive text */
        p.fit_textline(
            "The image is placed with a scaling of 0.5 and an orientation to "
            "the west with the lower right corner", 580, 320,
            "position={right bottom}");
        p.fit_textline(
            " at reference point (580, 20): fit_image(image, 580, 20, "
            "\"scale=0.5 orientate=west position={right bottom}\");",
            580, 300, "position={right bottom}");

        p.end_page_ext("");

        /* Start page 2 */
        p.begin_page_ext(0, 0, "width=a4.width height=a4.height");
        p.setfont(font, 12);


        /* --------------------------------------
         * Fit the image into a box with clipping
         * --------------------------------------
         */

        /* The "boxsize" option defines a box with a given width and height and
         * its lower left corner located at the reference point.
         * "position={right top}" positions the image on the top right of the
         * box.
         * "fitmethod=clip" clips the image to fit it into the box.
         */
        sprintf(buf, "boxsize={%d %d} position={right top} fitmethod=clip",
            bw, bh);
        p.fit_image(image, x, y, buf);

        /* Output some descriptive text */
        p.fit_textline(
            "fit_image(image, x, y, \"boxsize={400 200} position={right top} "
            "fitmethod=clip\");", 20, y+bh+10, "");


        /* ---------------------------------------------------
         * Fit the image into a box with proportional resizing
         * ---------------------------------------------------
         */

        /* The "boxsize" option defines a box with a given width and height and
         * its lower left corner located at the reference point.
         * "position={center}" positions the image in the center of the
         * box.
         * "fitmethod=meet" resizes the image proportionally until its height
         * or width completely fits into the box.
         * The "showborder" option is used to illustrate the borders of the box.
         */
        sprintf(buf,
            "boxsize={%d %d} position={center} fitmethod=meet showborder",
            bw, bh);
        p.fit_image(image, x, y-=yoffset, buf);

        /* Output some descriptive text */
        p.fit_textline(
            "fit_image(image, x, y, \"boxsize={400 200} position={center} "
            "fitmethod=meet showborder\");", 20, y+bh+10, "");


        /* ---------------------------------
         * Fit the image into a box entirely
         * ---------------------------------
         */

        /* The "boxsize" option defines a box with a given width and height and
         * its lower left corner located at the reference point.
         * By default, the image is positioned in the lower left corner of the
         * box.
         * "fitmethod=entire" resizes the image proportionally until its height
         * or width completely fits into the box.
         */
        sprintf(buf, "boxsize={%d %d} fitmethod=entire", bw, bh);
        p.fit_image(image, x, y-=yoffset, buf);

        /* Output some descriptive text */
        p.fit_textline(
            "fit_image(image, x, y, \"boxsize={400 200} fitmethod=entire\");",
            20, y+bh+10, "");

        p.end_page_ext("");

        p.close_image(image);

        p.end_document("");

    }

    catch (PDFlib::Exception &ex) {
        cerr << "PDFlib exception occurred:" << endl;
        cerr << "[" << ex.get_errnum() << "] " << ex.get_apiname()
            << ": " << ex.get_errmsg() << endl;
        return 2;
    }

    return 0;
}