Cara Menyambungkan Bentuk dengan Penyambung dalam C++

Penghubung dalam Aspose.Slides FOSS ialah bentuk garis yang melekat pada tapak sambungan pada bentuk lain. Apabila anda menggerakkan bentuk yang disambungkan, titik hujung penghubung bergerak bersama dengannya. Jenis penghubung yang paling biasa ialah BENT_CONNECTOR3, yang melintasi halangan dengan satu bengkok siku.

Prasyarat

git clone https://github.com/aspose-slides-foss/Aspose.Slides-FOSS-for-Cpp.git
cd Aspose.Slides-FOSS-for-Cpp && mkdir build && cd build
cmake .. && cmake --build .

Indeks Tapak Sambungan

Setiap bentuk mempunyai empat tapak sambungan bernombor:

Indeks	Kedudukan
`0`	Atas tengah
`1`	Kiri tengah
`2`	Bawah tengah
`3`	Kanan tengah

Sambungkan Dua Bentuk

#include <Aspose/Slides/Foss/presentation.h>

int main() {
    namespace asf = Aspose::Slides::Foss;

    asf::Presentation prs;
    auto& slide = prs.slides()[0];

    // Add two rectangles
    auto& box1 = slide.shapes().add_auto_shape(
        asf::ShapeType::RECTANGLE, 50, 200, 200, 100);
    auto& box2 = slide.shapes().add_auto_shape(
        asf::ShapeType::RECTANGLE, 450, 200, 200, 100);

    box1.text_frame()->set_text("Start");
    box2.text_frame()->set_text("End");

    // Add a bent connector (initial bounds are overwritten by the connection)
    auto& conn = slide.shapes().add_connector(
        asf::ShapeType::BENT_CONNECTOR3, 0, 0, 10, 10);

    // Connect right side of box1 (site 3) to left side of box2 (site 1)
    conn.set_start_shape_connected_to(&box1);
    conn.set_start_shape_connection_site_index(3);
    conn.set_end_shape_connected_to(&box2);
    conn.set_end_shape_connection_site_index(1);

    prs.save("connected.pptx", asf::SaveFormat::PPTX);
    return 0;
}

Had batas tempat pemegang (0, 0, 10, 10) yang dihantar kepada add_connector diabaikan setelah titik akhir sambungan ditetapkan; PowerPoint mengalihkan semula penyambung ke bentuk yang dilampirkan.

Jenis Penyambung

namespace asf = Aspose::Slides::Foss;

// Straight line
asf::ShapeType::STRAIGHT_CONNECTOR1;

// Single elbow (L-shape)
asf::ShapeType::BENT_CONNECTOR2;

// Double elbow (Z-shape): most common
asf::ShapeType::BENT_CONNECTOR3;

// Curved connector
asf::ShapeType::CURVED_CONNECTOR3;

Gaya Garis Penyambung

#include <Aspose/Slides/Foss/presentation.h>

int main() {
    namespace asf = Aspose::Slides::Foss;

    asf::Presentation prs;
    auto& slide = prs.slides()[0];

    auto& box1 = slide.shapes().add_auto_shape(
        asf::ShapeType::RECTANGLE, 50, 150, 180, 80);
    auto& box2 = slide.shapes().add_auto_shape(
        asf::ShapeType::RECTANGLE, 500, 300, 180, 80);

    auto& conn = slide.shapes().add_connector(
        asf::ShapeType::BENT_CONNECTOR3, 0, 0, 10, 10);
    conn.set_start_shape_connected_to(&box1);
    conn.set_start_shape_connection_site_index(2);   // bottom of box1
    conn.set_end_shape_connected_to(&box2);
    conn.set_end_shape_connection_site_index(0);     // top of box2

    // Style: dashed blue line, 2 pt width
    auto& lf = conn.line_format();
    lf.set_width(2.0);
    lf.fill_format().solid_fill_color().set_color(asf::Color::blue);
    lf.set_dash_style(asf::LineDashStyle::DASH);

    prs.save("styled-connector.pptx", asf::SaveFormat::PPTX);
    return 0;
}

Carta Alir dengan Pelbagai Penyambung

#include <Aspose/Slides/Foss/presentation.h>

int main() {
    namespace asf = Aspose::Slides::Foss;

    asf::Presentation prs;
    auto& slide = prs.slides()[0];

    // Three-step flowchart
    auto& step1 = slide.shapes().add_auto_shape(
        asf::ShapeType::RECTANGLE, 350, 50, 200, 70);
    auto& step2 = slide.shapes().add_auto_shape(
        asf::ShapeType::RECTANGLE, 350, 220, 200, 70);
    auto& step3 = slide.shapes().add_auto_shape(
        asf::ShapeType::RECTANGLE, 350, 390, 200, 70);

    step1.text_frame()->set_text("Step 1");
    step2.text_frame()->set_text("Step 2");
    step3.text_frame()->set_text("Step 3");

    auto connect_vertical = [&](auto& top_shape, auto& bottom_shape) {
        auto& c = slide.shapes().add_connector(
            asf::ShapeType::BENT_CONNECTOR3, 0, 0, 10, 10);
        c.set_start_shape_connected_to(&top_shape);
        c.set_start_shape_connection_site_index(2);   // bottom
        c.set_end_shape_connected_to(&bottom_shape);
        c.set_end_shape_connection_site_index(0);     // top
    };

    connect_vertical(step1, step2);
    connect_vertical(step2, step3);

    prs.save("flowchart.pptx", asf::SaveFormat::PPTX);
    return 0;
}

Baca Sifat Penyambung

#include <Aspose/Slides/Foss/presentation.h>
#include <iostream>

int main() {
    namespace asf = Aspose::Slides::Foss;

    asf::Presentation prs("connected.pptx");
    for (size_t i = 0; i < prs.slides()[0].shapes().size(); ++i) {
        auto& shape = prs.slides()[0].shapes()[i];
        if (shape.is_connector()) {
            auto& connector = static_cast<asf::Connector&>(shape);
            std::cout << "Connector found\n";
        }
    }
    return 0;
}