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  • gamedev/fggl
  • onuralpsezer/fggl
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fggl/grid/hexagon.cpp 0 → 100644
View file @ bd58e207
/*
* This file is part of FGGL.
*
* FGGL is free software: you can redistribute it and/or modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any
* later version.
*
* FGGL 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License along with FGGL.
* If not, see <https://www.gnu.org/licenses/>.
*/
//
// Created by webpigeon on 10/12/22.
//
#include "fggl/grid/hexagon.hpp"
namespace fggl::grid {
std::vector<IntHex> lineTo(const IntHex& start, const IntHex& end) {
const int distance = start.distance(end);
std::vector<IntHex> line;
for (auto i=0; i < distance; ++i) {
line.push_back( round2(hexLerp(start, end, 1.0F/distance * i)) );
}
return line;
}
} // namespace fggl:grid
fggl/gui/CMakeLists.txt 0 → 100644
View file @ bd58e207
target_sources( ${PROJECT_NAME}
PRIVATE
widget.cpp
widgets.cpp
containers.cpp
fonts.cpp
model/parser.cpp
model/structure.cpp
renderer/renderer.cpp
)
find_package(Freetype)
target_link_libraries(${PROJECT_NAME} PUBLIC Freetype::Freetype)
fggl/gui/containers.cpp
View file @ bd58e207
......@@ -17,9 +17,9 @@
namespace fggl::gui {
Widget *Container::getChildAt(const math::vec2 &point) {
for ( auto& child : m_children ){
if ( child->contains(point) ){
auto Container::getChildAt(const math::vec2 &point) -> Widget * {
for (auto &child : m_children) {
if (child->contains(point)) {
return child->getChildAt(point);
}
}
......@@ -27,21 +27,99 @@ namespace fggl::gui {
return nullptr;
}
bool Container::contains(const math::vec2 &point) {
auto Container::contains(const math::vec2 &point) -> bool {
return true;
}
void Container::render(gfx::Paint &paint) {
for( auto& child : m_children ){
child->render( paint );
for (auto &child : m_children) {
child->render(paint);
}
}
void Container::add(std::unique_ptr<Widget> widget) {
m_children.push_back( std::move(widget) );
m_children.push_back(std::move(widget));
m_dirty = true;
}
void Container::onMouseOver(math::vec2 pos) {
Widget::onMouseOver(pos);
auto* childHover = getChildAt(pos);
for ( auto& child : m_children) {
if ( child.get() != childHover ) {
child->onExit(pos);
}
}
if ( childHover != nullptr ) {
childHover->onMouseOver(pos);
}
}
void Container::onEnter(math::vec2i pos) {
Widget::onEnter(pos);
for ( auto& child : m_children ) {
if ( child->contains(pos)) {
child->onEnter(pos);
}
}
}
void Container::onExit(math::vec2i pos) {
Widget::onExit(pos);
for ( auto& child : m_children) {
child->onExit(pos);
}
}
GridBox::GridBox(uint32_t rows, uint32_t cols, uint32_t padx, uint32_t pady) : m_rows(rows), m_cols(cols), m_padding(padx, pady) {}
void GridBox::layout() {
assert( m_rows != 0 || m_cols != 0 );
if ( m_rows == 0 ) {
int rows = m_children.size() / m_cols;
// figure out the width and heights
auto* widths = new float[m_cols]{0.0F};
auto* heights = new float[rows]{0.0F};
for ( auto idx = 0U; idx < m_children.size(); ++idx) {
auto& child = m_children[idx];
int col = idx % m_cols;
int row = idx / m_cols;
widths[col] = std::max( child->size().x, widths[col] );
heights[row] = std::max( child->size().y, heights[row] );
}
// populate the grid
fggl::math::vec2i pos{0, 0};
unsigned int row = 0;
unsigned int col = 0;
for ( auto& child : m_children ) {
fggl::math::vec2i size{ widths[col], heights[row] };
child->size(pos, size);
child->layout();
// next iter
pos.x += size.x + m_padding.x;
col++;
if ( col == m_cols ) {
col = 0;
row++;
pos.x = 0;
pos.y += size.y + m_padding.y;
}
}
// cleanup variables
delete[] widths;
delete[] heights;
}
}
/*
Box::Box( LayoutAxis axis ) : m_axis( axis ) {}
......@@ -70,7 +148,7 @@ namespace fggl::gui {
void Panel::render(gfx::Paint &paint) {
// background painting time
gfx::Path2D background(topLeft());
background.colour(math::vec3(32.0f/255.0f, 74.0F/255.0F, 135.0F/255.0F));
background.colour(math::vec3(32.0F / 255.0F, 74.0F / 255.0F, 135.0F / 255.0F));
draw_box(background, topLeft(), bottomRight());
paint.fill(background);
......
fggl/gui/fonts.cpp
View file @ bd58e207
......@@ -23,29 +23,29 @@ namespace fggl::gui {
FT_Done_Face(m_face);
}
FontLibrary::FontLibrary(data::Storage* storage) : m_context(nullptr), m_storage(storage) {
FontLibrary::FontLibrary(data::Storage *storage) : m_context(nullptr), m_storage(storage) {
FT_Init_FreeType(&m_context);
m_defaultFont = getFont(DEFAULT_FONT_NAME);
}
FontLibrary::~FontLibrary() {
// free all fonts
for (auto& face : m_cache ){
face.second = nullptr;
}
m_defaultFont = nullptr;
m_cache.clear();
// shut the library down
FT_Done_FreeType(m_context);
}
GlyphMetrics &FontFace::populateMetrics(char letter) {
if (FT_Load_Char(m_face, letter, FT_LOAD_RENDER) ) {
auto FontFace::populateMetrics(char letter) -> GlyphMetrics & {
if (FT_Load_Char(m_face, letter, FT_LOAD_RENDER)) {
// something bad happened
return m_metrics['?'];
}
GlyphMetrics metrics {
{ m_face->glyph->bitmap.width, m_face->glyph->bitmap.rows},
{ m_face->glyph->bitmap_left, m_face->glyph->bitmap_top },
GlyphMetrics metrics{
{m_face->glyph->bitmap.width, m_face->glyph->bitmap.rows},
{m_face->glyph->bitmap_left, m_face->glyph->bitmap_top},
m_face->glyph->advance.x
};
......@@ -54,8 +54,8 @@ namespace fggl::gui {
return it.first->second;
}
void FontFace::texture(char letter, int &width, int &height, void **buff) {
if (FT_Load_Char(m_face, letter, FT_LOAD_RENDER) ) {
void FontFace::texture(char letter, int &width, int &height, unsigned char **buff) {
if (FT_Load_Char(m_face, letter, FT_LOAD_RENDER)) {
// something bad happened
return;
}
......
fggl/gui/model/parser.cpp 0 → 100644
View file @ bd58e207
/*
* This file is part of FGGL.
*
* FGGL is free software: you can redistribute it and/or modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any
* later version.
*
* FGGL 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License along with FGGL.
* If not, see <https://www.gnu.org/licenses/>.
*/
//
// Created by webpigeon on 11/03/23.
//
#include "fggl/gui/model/parser.hpp"
#include <yaml-cpp/yaml.h>
namespace fggl::gui::model {
Widget* YamlToWidgetTree(WidgetFactory& factory, const YAML::Node& config) {
Widget* root;
if ( config["template"] ) {
root = factory.build( config["template"].as<std::string>());
} else {
root = factory.buildEmpty();
}
// deal with attrs
for ( auto attr : config["attrs"] ) {
root->set(attr.first.as<std::string>(), attr.second.as<std::string>());
}
// deal with child nodes
for ( auto child : config["children"] ) {
Widget* childWidget = YamlToWidgetTree(factory, child);
root->addChild(*childWidget);
}
// are we a template definition?
if ( config["define"] ) {
factory.push( config["define"].as<std::string>(), std::move(*root) );
return factory.getTemplate( config["define"].as<std::string>() );
}
return root;
}
inline Widget* parseFile(WidgetFactory& factory, const std::string& path) {
YAML::Node root = YAML::LoadFile(path);
if ( !root ){
return nullptr;
}
return YamlToWidgetTree(factory, root);
}
}
\ No newline at end of file
fggl/gui/model/structure.cpp 0 → 100644
View file @ bd58e207
/*
* This file is part of FGGL.
*
* FGGL is free software: you can redistribute it and/or modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any
* later version.
*
* FGGL 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License along with FGGL.
* If not, see <https://www.gnu.org/licenses/>.
*/
//
// Created by webpigeon on 11/03/23.
//
#include "fggl/gui/model/structure.hpp"
#include "fggl/gui/fonts.hpp"
#include <algorithm>
#include <utility>
#include <string>
namespace fggl::gui::model {
math::vec2 calcTextBounds(const std::string& value, std::shared_ptr<FontFace> face) {
if ( face == nullptr ){
debug::warning("No preferred font sent, cowardly refusing to process text");
return {};
}
math::vec2 max{0, 0};
for (auto letter : value) {
auto metrics = face->metrics(letter);
max.x += metrics.size.x + (metrics.advance >> 6);
max.y = std::max(max.y, metrics.size.y);
}
return max;
}
inline math::vec2 calcBoxContrib(const Widget& widget, const std::string& name) {
return math::vec2{
widget.get_or_default<float>( name + "::left") + widget.get_or_default<float>(name + "::right"),
widget.get_or_default<float>( name + "::top" ) + widget.get_or_default<float>( name + "::bottom" )
};
}
void Widget::calcPrefSize(std::shared_ptr<FontFace> face) {
if ( !m_dirty ){
return;
}
auto padding = calcBoxContrib( *this, "padding");
auto border = calcBoxContrib( *this, "border");
auto content = math::vec2{0,0};
if (hasAttr("text")) {
content += calcTextBounds( get<std::string>("text"), std::move(face) );
}
m_cachedSize = padding + content + content;
debug::info("my preferred size is: ({}, {})", m_cachedSize.x, m_cachedSize.y);
m_dirty = false;
}
}
\ No newline at end of file
fggl/gui/renderer/renderer.cpp 0 → 100644
View file @ bd58e207
/*
* This file is part of FGGL.
*
* FGGL is free software: you can redistribute it and/or modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any
* later version.
*
* FGGL 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License along with FGGL.
* If not, see <https://www.gnu.org/licenses/>.
*/
//
// Created by webpigeon on 11/03/23.
//
#include "fggl/gui/renderer/renderer.hpp"
namespace fggl::gui::renderer {
constexpr int PADDING = 15;
void draw_box(gfx::Path2D &path, glm::vec2 topLeft, glm::vec2 bottomRight) {
path.moveTo({topLeft.x, topLeft.y});
path.pathTo({bottomRight.x, topLeft.y});
path.pathTo({bottomRight.x, bottomRight.y});
path.pathTo({topLeft.x, bottomRight.y});
path.pathTo({topLeft.x, topLeft.y});
}
void draw_border_patch(gfx::Paint& paint, Box& bounds, Box& size, math::vec3 colour) {
gfx::Path2D path({0,0});
path.colour(colour);
// draw edges
draw_box(path, {bounds.left + size.left, bounds.top}, {bounds.right - size.right, bounds.top + size.top} );
draw_box(path, {bounds.right - size.right, bounds.top + size.top}, {bounds.right, bounds.bottom - size.bottom} );
draw_box(path, {bounds.left + size.left, bounds.bottom - size.bottom}, {bounds.right - size.right, bounds.bottom} );
draw_box(path, {bounds.left, bounds.top + size.top}, {bounds.left + size.left, bounds.bottom - size.bottom} );
// draw-corners
draw_box(path, {bounds.left, bounds.top}, {bounds.left + size.left, bounds.top + size.top} );
draw_box(path, {bounds.right - size.right, bounds.top}, {bounds.right, bounds.top + size.top} );
draw_box(path, {bounds.left, bounds.bottom - size.bottom}, {bounds.left + size.left, bounds.bottom} );
draw_box(path, {bounds.right - size.right, bounds.bottom - size.bottom}, {bounds.right, bounds.bottom});
paint.fill(path);
}
void draw_border_solid(gfx::Paint& paint, Box& bounds, Box& size, math::vec3 colour) {
gfx::Path2D path({0,0});
path.colour(colour);
// draw edges
draw_box(path, {bounds.left, bounds.top}, {bounds.right, bounds.top + size.top} );
draw_box(path, {bounds.right - size.right, bounds.top + size.top}, {bounds.right, bounds.bottom - size.bottom} );
draw_box(path, {bounds.left, bounds.bottom - size.bottom}, {bounds.right, bounds.bottom} );
draw_box(path, {bounds.left, bounds.top + size.top}, {bounds.left + size.left, bounds.bottom - size.bottom} );
paint.fill(path);
}
void draw_background_solid(gfx::Paint& paint, Box& bounds, math::vec3 colour) {
gfx::Path2D path({0,0});
path.colour(colour);
draw_box(path, {bounds.left, bounds.top}, {bounds.right, bounds.bottom} );
paint.fill(path);
}
void layout(model::Widget& current) {
if ( current.isLeaf() ) {
// if the widget has a defined size, use that
if ( current.hasAttr("size") && !current.hasAttr("text") ) {
return;
}
// else, use the model's preferred size
auto preferred = current.preferredSize();
if ( preferred.has_value() ) {
current.set<math::vec2>("size", preferred.value() );
}
} else {
auto topPad = current.get_or_default<float>("border:top") + current.get_or_default<float>("padding::top");
auto leftPad = current.get_or_default<float>("border::left") + current.get_or_default<float>("padding::left");
math::vec2 size = {topPad, leftPad};
// layout all children
for ( auto& child : current ) {
layout(child);
auto childSize = child.get_or_default<math::vec2>("size");
size.x = std::max( childSize.x, size.x );
size.y += childSize.y;
child.set<math::vec2>("position", {leftPad, size.y});
}
// set our size based on that
current.set<math::vec2>("size", size );
}
}
void visit(const model::Widget& root, gfx::Paint& paint, Box offset) {
// get border size
auto border = get_box(root, "border");
// calculate box bounds
auto pos = get_vec2(root, "position");
auto size = get_vec2(root, "size");
auto bounds = getBounds(pos, size);
bounds.top += offset.top;
bounds.left += offset.left;
// deal with right hand size bounds
//bounds.right = std::min( size.x, offset.width() );
//bounds.right += offset.left;
// deal with bottom bounds
//bounds.bottom = std::min( size.y, offset.height() );
//bounds.bottom += offset.top;
auto background = bounds.trim(border);
draw_background_solid(paint, background, get_vec3_rgb(root, "colour"));
draw_border_patch(paint, bounds, border, get_vec3_rgb(root, "border::colour"));
auto padding = get_box(root, "padding");
background = background.trim(padding);
if ( root.hasAttr("text") ) {
auto text = root.get<std::string>("text");
paint.text(text, {background.left, background.top + PADDING});
}
for (const auto& child : root) {
visit(child, paint, background);
}
}
} // namespace fggl::gui:;renderer
\ No newline at end of file
fggl/gui/widget.cpp
View file @ bd58e207
......@@ -20,44 +20,44 @@
namespace fggl::gui {
void buttonBorder( gfx::Path2D& path, glm::vec2 pos, glm::vec2 size ) {
void button_border(gfx::Path2D &path, glm::vec2 pos, glm::vec2 size) {
// outer box
path.colour( {1.0f, 0.0f, 0.0f} );
path.pathTo( { pos.x + size.x, pos.y } );
path.pathTo( { pos.x + size.x, pos.y + size.y } );
path.pathTo( { pos.x, pos.y + size.y } );
path.colour({1.0F, 0.0F, 0.0F});
path.pathTo({pos.x + size.x, pos.y});
path.pathTo({pos.x + size.x, pos.y + size.y});
path.pathTo({pos.x, pos.y + size.y});
path.close();
// inner box
math::vec2 innerTop { pos.x + 5, pos.y + 5 };
math::vec2 innerBottom { pos.x + size.x - 5, pos.y + size.y - 5 };
path.colour( {1.0f, 1.0f, 0.0f} );
path.moveTo( { innerTop.x, innerTop.y } );
path.pathTo( { innerBottom.x, innerTop.y } );
path.pathTo( { innerBottom.x, innerBottom.y } );
path.pathTo( { innerTop.x, innerBottom.y } );
path.pathTo( { innerTop.x, innerTop.y } );
math::vec2 innerTop{pos.x + 5, pos.y + 5};
math::vec2 innerBottom{pos.x + size.x - 5, pos.y + size.y - 5};
path.colour({1.0F, 1.0F, 0.0F});
path.moveTo({innerTop.x, innerTop.y});
path.pathTo({innerBottom.x, innerTop.y});
path.pathTo({innerBottom.x, innerBottom.y});
path.pathTo({innerTop.x, innerBottom.y});
path.pathTo({innerTop.x, innerTop.y});
}
void draw_box( gfx::Path2D& path, glm::vec2 topLeft, glm::vec2 bottomRight ) {
path.moveTo( { topLeft.x, topLeft.y } );
path.pathTo( { bottomRight.x, topLeft.y } );
path.pathTo( { bottomRight.x, bottomRight.y } );
path.pathTo( { topLeft.x, bottomRight.y } );
path.pathTo( { topLeft.x, topLeft.y } );
void draw_box(gfx::Path2D &path, glm::vec2 topLeft, glm::vec2 bottomRight) {
path.moveTo({topLeft.x, topLeft.y});
path.pathTo({bottomRight.x, topLeft.y});
path.pathTo({bottomRight.x, bottomRight.y});
path.pathTo({topLeft.x, bottomRight.y});
path.pathTo({topLeft.x, topLeft.y});
}
void draw_progress( gfx::Path2D& path, glm::vec2 topLeft, glm::vec2 size, float value ) {
const auto bottomRight { topLeft + size };
void draw_progress(gfx::Path2D &path, glm::vec2 topLeft, glm::vec2 size, float value) {
const auto bottomRight{topLeft + size};
// background
path.colour( {0.5f, 0.5f, 0.5f} );
draw_box( path, topLeft, bottomRight );
path.colour({0.5F, 0.5F, 0.5F});
draw_box(path, topLeft, bottomRight);
// fill
math::vec2 innerTop { topLeft.x + 5, topLeft.y + 5 };
math::vec2 innerBottom { bottomRight.x - 5, bottomRight.y - 5 };
math::vec2 innerTop{topLeft.x + 5, topLeft.y + 5};
math::vec2 innerBottom{bottomRight.x - 5, bottomRight.y - 5};
// figure out how wide the bar should be
float barWidth = (innerBottom.x - innerTop.x) * value;
......@@ -65,55 +65,55 @@ namespace fggl::gui {
innerBottom.x = innerTop.x + barWidth;
// draw the bar
path.colour( {0.8f, 0.0f, 0.0f} );
draw_box( path, innerTop, innerBottom );
path.colour({0.8F, 0.0F, 0.0F});
draw_box(path, innerTop, innerBottom);
// part of the bar that's not filled in
math::vec2 emptyTop { innerBottom.x, innerTop.y };
math::vec2 emptyBottom { trueBottom, innerBottom.y };
path.colour( {0.4f, 0.0f, 0.0f} );
draw_box( path, emptyTop, emptyBottom );
math::vec2 emptyTop{innerBottom.x, innerTop.y};
math::vec2 emptyBottom{trueBottom, innerBottom.y};
path.colour({0.4F, 0.0F, 0.0F});
draw_box(path, emptyTop, emptyBottom);
}
void draw_slider( gfx::Path2D& path, glm::vec2 topLeft, glm::vec2 size, float value ) {
draw_progress( path, topLeft, size, value );
void draw_slider(gfx::Path2D &path, glm::vec2 topLeft, glm::vec2 size, float value) {
draw_progress(path, topLeft, size, value);
// dimensions
const auto bottomRight { topLeft + size };
const math::vec2 innerTop { topLeft.x + 5, topLeft.y + 5 };
const math::vec2 innerBottom { bottomRight.x - 5, bottomRight.y - 5 };
const auto bottomRight{topLeft + size};
const math::vec2 innerTop{topLeft.x + 5, topLeft.y + 5};
const math::vec2 innerBottom{bottomRight.x - 5, bottomRight.y - 5};
// selector bar
float trackWidth = innerBottom.x - innerTop.x;
float selectorValue = trackWidth * value;
float selectorWidth = 6;
math::vec2 selectorTop { innerTop.x + selectorValue - ( selectorWidth/2), topLeft.y };
math::vec2 selectorBottom { selectorTop.x + selectorWidth, bottomRight.y };
path.colour( {1.0f, 1.0f, 1.0f} );
draw_box( path, selectorTop, selectorBottom );
math::vec2 selectorTop{innerTop.x + selectorValue - (selectorWidth / 2), topLeft.y};
math::vec2 selectorBottom{selectorTop.x + selectorWidth, bottomRight.y};
path.colour({1.0F, 1.0F, 1.0F});
draw_box(path, selectorTop, selectorBottom);
}
void draw_button( gfx::Path2D& path, glm::vec2 pos, glm::vec2 size, bool active, bool pressed) {
void draw_button(gfx::Path2D &path, glm::vec2 pos, glm::vec2 size, bool active, bool pressed) {
// locations
math::vec2 outerTop { pos };
math::vec2 outerBottom { pos + size };
math::vec2 innerTop { pos.x + 5, pos.y + 5 };
math::vec2 innerBottom { pos.x + size.x - 5, pos.y + size.y - 5 };
math::vec2 outerTop{pos};
math::vec2 outerBottom{pos + size};
math::vec2 innerTop{pos.x + 5, pos.y + 5};
math::vec2 innerBottom{pos.x + size.x - 5, pos.y + size.y - 5};
math::vec3 baseColour{ 0.5f, 0.5f, 0.5f };
math::vec3 baseColour{0.5F, 0.5F, 0.5F};
if ( active ) {
baseColour *= 1.2f;
if (active) {
baseColour *= 1.2F;
}
if ( pressed ) {
baseColour *= 0.8f;
if (pressed) {
baseColour *= 0.8F;
}
math::vec3 lightColour{ baseColour * 1.2f };
math::vec3 darkColour{ baseColour * 0.8f };
if ( pressed ) {
math::vec3 lightColour{baseColour * 1.2F};
math::vec3 darkColour{baseColour * 0.8F};
if (pressed) {
// flip light and dark for selected buttons
auto tmp = darkColour;
darkColour = lightColour;
......@@ -121,39 +121,39 @@ namespace fggl::gui {
}
// bottom side
path.colour( lightColour );
path.moveTo( outerTop );
path.pathTo( innerTop );
path.pathTo( { innerBottom.x, innerTop.y } );
path.pathTo( { outerBottom.x, outerTop.y } );
path.pathTo( outerTop );
path.colour(lightColour);
path.moveTo(outerTop);
path.pathTo(innerTop);
path.pathTo({innerBottom.x, innerTop.y});
path.pathTo({outerBottom.x, outerTop.y});
path.pathTo(outerTop);
// left side
path.colour( lightColour );
path.moveTo( outerTop );
path.pathTo( innerTop );
path.pathTo( { innerTop.x, innerBottom.y } );
path.pathTo( { outerTop.x, outerBottom.y } );
path.pathTo( outerTop );
path.colour(lightColour);
path.moveTo(outerTop);
path.pathTo(innerTop);
path.pathTo({innerTop.x, innerBottom.y});
path.pathTo({outerTop.x, outerBottom.y});
path.pathTo(outerTop);
// top side
path.colour( darkColour );
path.moveTo( { outerTop.x, outerBottom.y} );
path.pathTo( { innerTop.x, innerBottom.y} );
path.pathTo( innerBottom );
path.pathTo( outerBottom );
path.pathTo( { outerTop.x, outerBottom.y} );
path.colour(darkColour);
path.moveTo({outerTop.x, outerBottom.y});
path.pathTo({innerTop.x, innerBottom.y});
path.pathTo(innerBottom);
path.pathTo(outerBottom);
path.pathTo({outerTop.x, outerBottom.y});
// right side
path.colour( darkColour );
path.moveTo( outerBottom );
path.pathTo( innerBottom );
path.pathTo( { innerBottom.x, innerTop.y } );
path.pathTo( { outerBottom.x, outerTop.y } );
path.pathTo( outerBottom );
path.colour(darkColour);
path.moveTo(outerBottom);
path.pathTo(innerBottom);
path.pathTo({innerBottom.x, innerTop.y});
path.pathTo({outerBottom.x, outerTop.y});
path.pathTo(outerBottom);
// inner box
path.colour( baseColour );
draw_box( path, innerTop, innerBottom );
path.colour(baseColour);
draw_box(path, innerTop, innerBottom);
}
}
\ No newline at end of file
fggl/gui/widgets.cpp
View file @ bd58e207
......@@ -23,10 +23,10 @@
namespace fggl::gui {
Button::Button( math::vec2 pos, math::vec2 size) : Widget(pos, size), m_label(pos, size), m_hover(false), m_active(false) {}
Button::Button(math::vec2 pos, math::vec2 size) : Widget(pos, size), m_label(pos, size), m_active(false) {}
void Button::render(gfx::Paint &paint) {
gfx::Path2D path{ topLeft() };
gfx::Path2D path{topLeft()};
draw_button(path, topLeft(), size(), m_hover, m_active);
paint.fill(path);
......@@ -35,41 +35,37 @@ namespace fggl::gui {
void Button::activate() {
m_active = !m_active;
if ( m_active ) {
for( auto& callback : m_callbacks ) {
if (m_active) {
for (auto &callback : m_callbacks) {
callback();
m_active = false;
}
m_active = false;
}
}
void Button::onEnter() {
m_hover = true;
}
void Button::onExit() {
m_hover = false;
}
void Button::addCallback(Callback cb) {
m_callbacks.push_back( cb );
m_callbacks.push_back(cb);
}
void Button::label(const std::string &value) {
m_label.text(value);
}
std::string Button::label() const {
void Button::layout() {
m_label.size(topLeft(), size());
}
auto Button::label() const -> std::string {
return m_label.text();
}
void Label::layout() {
if ( m_font == nullptr ) {
if (m_font == nullptr) {
return;
}
math::vec2 size;
for (const auto& letter : m_value) {
for (const auto &letter : m_value) {
auto metrics = m_font->metrics(letter);
size.x += (metrics.advance << 6);
size.y = std::max(size.y, metrics.size.y);
......
fggl/input/camera_input.cpp
View file @ bd58e207
......@@ -23,156 +23,160 @@
namespace fggl::input {
void process_arcball(entity::EntityManager &ecs, const Input &input, entity::EntityID cam) {
// see https://asliceofrendering.com/camera/2019/11/30/ArcballCamera/
auto& camTransform = ecs.get<fggl::math::Transform>(cam);
auto& camComp = ecs.get<fggl::gfx::Camera>(cam);
auto &mouse = input.mouse;
glm::vec4 position(camTransform.origin(), 1.0f);
glm::vec4 pivot(camComp.target, 1.0f);
glm::mat4 view = glm::lookAt(camTransform.origin(), camComp.target, camTransform.up());
glm::vec3 viewDir = -glm::transpose(view)[2];
glm::vec3 rightDir = glm::transpose(view)[0];
float deltaAngleX = (2 * M_PI);
float deltaAngleY = (M_PI);
float xAngle = (-mouse.axisDelta(fggl::input::MouseAxis::X)) * deltaAngleX;
float yAngle = (-mouse.axisDelta(fggl::input::MouseAxis::Y)) * deltaAngleY;
// rotate the camera around the pivot on the first axis
glm::mat4x4 rotationMatrixX(1.0f);
rotationMatrixX = glm::rotate(rotationMatrixX, xAngle, fggl::math::UP);
position = (rotationMatrixX * (position - pivot)) + pivot;
// rotate the camera aroud the pivot on the second axis
glm::mat4x4 rotationMatrixY(1.0f);
rotationMatrixY = glm::rotate(rotationMatrixY, yAngle, rightDir);
glm::vec3 finalPos = (rotationMatrixY * (position - pivot)) + pivot;
camTransform.origin(finalPos);
}
void process_scroll(entity::EntityManager &ecs, const Input &input, entity::EntityID cam, float minZoom, float maxZoom){
auto& camTransform = ecs.get<fggl::math::Transform>(cam);
auto& camComp = ecs.get<fggl::gfx::Camera>(cam);
const glm::vec3 dir = ( camTransform.origin() - camComp.target );
const glm::vec3 forward = glm::normalize( dir );
void process_arcball(entity::EntityManager &ecs, const Input &input, entity::EntityID cam) {
// see https://asliceofrendering.com/camera/2019/11/30/ArcballCamera/
auto &camTransform = ecs.get<fggl::math::Transform>(cam);
auto &camComp = ecs.get<fggl::gfx::Camera>(cam);
const auto &mouse = input.mouse;
glm::vec4 position(camTransform.origin(), 1.0F);
glm::vec4 pivot(camComp.target, 1.0F);
glm::mat4 view = glm::lookAt(camTransform.origin(), camComp.target, camTransform.up());
glm::vec3 viewDir = -glm::transpose(view)[2];
glm::vec3 rightDir = glm::transpose(view)[0];
float deltaAngleX = (2 * M_PI);
float deltaAngleY = (M_PI);
float xAngle = (-mouse.axisDelta(fggl::input::MouseAxis::X)) * deltaAngleX;
float yAngle = (-mouse.axisDelta(fggl::input::MouseAxis::Y)) * deltaAngleY;
// rotate the camera around the pivot on the first axis
glm::mat4x4 rotationMatrixX(1.0F);
rotationMatrixX = glm::rotate(rotationMatrixX, xAngle, fggl::math::UP);
position = (rotationMatrixX * (position - pivot)) + pivot;
// rotate the camera around the pivot on the second axis
glm::mat4x4 rotationMatrixY(1.0F);
rotationMatrixY = glm::rotate(rotationMatrixY, yAngle, rightDir);
glm::vec3 finalPos = (rotationMatrixY * (position - pivot)) + pivot;
camTransform.origin(finalPos);
}
void process_scroll(entity::EntityManager &ecs,
const Input &input,
entity::EntityID cam,
float minZoom,
float maxZoom) {
auto &camTransform = ecs.get<fggl::math::Transform>(cam);
auto &camComp = ecs.get<fggl::gfx::Camera>(cam);
const glm::vec3 dir = (camTransform.origin() - camComp.target);
const glm::vec3 forward = glm::normalize(dir);
glm::vec3 motion(0.0F);
float delta = input.mouse.axis( fggl::input::MouseAxis::SCROLL_Y );
if ( (glm::length( dir ) < maxZoom && delta < 0.0f) || (glm::length( dir ) > minZoom && delta > 0.0f) ) {
float delta = input.mouse.axis(fggl::input::MouseAxis::SCROLL_Y);
if ((glm::length(dir) < maxZoom && delta < 0.0F) || (glm::length(dir) > minZoom && delta > 0.0F)) {
motion -= (forward * delta);
camTransform.origin(camTransform.origin() + motion);
}
}
void process_freecam(entity::EntityManager &ecs, const Input &input, entity::EntityID cam) {
float rotationValue = 0.0f;
glm::vec3 translation(0.0f);
void process_freecam(entity::EntityManager &ecs, const Input &input, entity::EntityID cam) {
float rotationValue = 0.0F;
glm::vec3 translation(0.0F);
const auto &keyboard = input.keyboard;
auto &settings = ecs.get<FreeCamKeys>(cam);
// calculate rotation (user input)
if (keyboard.down(settings.rotate_cw)) {
rotationValue = ROT_SPEED;
} else if (keyboard.down(settings.rotate_ccw)) {
rotationValue = -ROT_SPEED;
}
auto &keyboard = input.keyboard;
auto& settings = ecs.get<FreeCamKeys>(cam);
// calculate rotation (user input)
if (keyboard.down(settings.rotate_cw)) {
rotationValue = ROT_SPEED;
} else if (keyboard.down(settings.rotate_ccw)) {
rotationValue = -ROT_SPEED;
}
// calculate movement (user input)
if (keyboard.down(settings.forward)) {
translation -= fggl::math::RIGHT;
}
if (keyboard.down(settings.backward)) {
translation += fggl::math::RIGHT;
}
if (keyboard.down(settings.right)) {
translation += fggl::math::FORWARD;
}
if (keyboard.down(settings.left)) {
translation -= fggl::math::FORWARD;
}
// apply rotation/movement
auto camTransform = ecs.get<fggl::math::Transform>(cam);
auto camComp = ecs.get<fggl::gfx::Camera>(cam);
glm::vec4 position(camTransform.origin(), 1.0f);
glm::vec4 pivot(camComp.target, 1.0f);
// apply movement
if (translation != glm::vec3(0.0f)) {
const auto rotation = (position - pivot);
const float angle = atan2f(rotation.x, rotation.z);
const auto rotationMat = glm::rotate(MAT_IDENTITY, angle, fggl::math::UP);
auto deltaMove = (rotationMat * glm::vec4(translation, 1.0f)) * PAN_SPEED;
deltaMove.w = 0.0f;
position += deltaMove;
pivot += deltaMove;
}
// apply rotation
if (rotationValue != 0.0f) {
glm::mat4 rotation = glm::rotate(MAT_IDENTITY, rotationValue, fggl::math::UP);
position = (rotation * (position - pivot)) + pivot;
}
camTransform.origin(position);
camComp.target = pivot;
}
void process_edgescroll(entity::EntityManager &ecs, const Input &input, entity::EntityID cam) {
glm::vec3 translation(0.0f);
auto &mouse = input.mouse;
// calculate movement (user input)
if (mouse.axis(MouseAxis::Y) < 0.9f) {
translation -= fggl::math::RIGHT;
}
if (mouse.axis(MouseAxis::Y) > -0.9f) {
translation += fggl::math::RIGHT;
}
if (mouse.axis(MouseAxis::X) > -0.9f) {
translation += fggl::math::FORWARD;
}
if (mouse.axis(MouseAxis::X) < 0.9f) {
translation -= fggl::math::FORWARD;
}
// apply rotation/movement
auto& camTransform = ecs.get<fggl::math::Transform>(cam);
auto& camComp = ecs.get<fggl::gfx::Camera>(cam);
glm::vec4 position(camTransform.origin(), 1.0f);
glm::vec4 pivot(camComp.target, 1.0f);
// apply movement
if (translation != glm::vec3(0.0f)) {
const auto rotation = (position - pivot);
const float angle = atan2f(rotation.x, rotation.z);
const auto rotationMat = glm::rotate(MAT_IDENTITY, angle, fggl::math::UP);
auto deltaMove = (rotationMat * glm::vec4(translation, 1.0f)) * PAN_SPEED;
deltaMove.w = 0.0f;
position += deltaMove;
pivot += deltaMove;
}
// move camera
camTransform.origin(position);
camComp.target = pivot;
}
// calculate movement (user input)
if (keyboard.down(settings.forward)) {
translation -= fggl::math::RIGHT;
}
if (keyboard.down(settings.backward)) {
translation += fggl::math::RIGHT;
}
if (keyboard.down(settings.right)) {
translation += fggl::math::FORWARD;
}
if (keyboard.down(settings.left)) {
translation -= fggl::math::FORWARD;
}
// apply rotation/movement
auto camTransform = ecs.get<fggl::math::Transform>(cam);
auto camComp = ecs.get<fggl::gfx::Camera>(cam);
glm::vec4 position(camTransform.origin(), 1.0F);
glm::vec4 pivot(camComp.target, 1.0F);
// apply movement
if (translation != glm::vec3(0.0F)) {
const auto rotation = (position - pivot);
const float angle = atan2f(rotation.x, rotation.z);
const auto rotationMat = glm::rotate(MAT_IDENTITY, angle, fggl::math::UP);
auto deltaMove = (rotationMat * glm::vec4(translation, 1.0F)) * PAN_SPEED;
deltaMove.w = 0.0F;
position += deltaMove;
pivot += deltaMove;
}
// apply rotation
if (rotationValue != 0.0F) {
glm::mat4 rotation = glm::rotate(MAT_IDENTITY, rotationValue, fggl::math::UP);
position = (rotation * (position - pivot)) + pivot;
}
camTransform.origin(position);
camComp.target = pivot;
}
void process_edgescroll(entity::EntityManager &ecs, const Input &input, entity::EntityID cam) {
glm::vec3 translation(0.0F);
const auto &mouse = input.mouse;
// calculate movement (user input)
if (mouse.axis(MouseAxis::Y) < 0.9F) {
translation -= fggl::math::RIGHT;
}
if (mouse.axis(MouseAxis::Y) > -0.9F) {
translation += fggl::math::RIGHT;
}
if (mouse.axis(MouseAxis::X) > -0.9F) {
translation += fggl::math::FORWARD;
}
if (mouse.axis(MouseAxis::X) < 0.9F) {
translation -= fggl::math::FORWARD;
}
// apply rotation/movement
auto &camTransform = ecs.get<fggl::math::Transform>(cam);
auto &camComp = ecs.get<fggl::gfx::Camera>(cam);
glm::vec4 position(camTransform.origin(), 1.0F);
glm::vec4 pivot(camComp.target, 1.0F);
// apply movement
if (translation != glm::vec3(0.0F)) {
const auto rotation = (position - pivot);
const float angle = atan2f(rotation.x, rotation.z);
const auto rotationMat = glm::rotate(MAT_IDENTITY, angle, fggl::math::UP);
auto deltaMove = (rotationMat * glm::vec4(translation, 1.0F)) * PAN_SPEED;
deltaMove.w = 0.0F;
position += deltaMove;
pivot += deltaMove;
}
// move camera
camTransform.origin(position);
camComp.target = pivot;
}
}
fggl/input/mouse.cpp
View file @ bd58e207
......@@ -16,12 +16,11 @@
namespace fggl::input {
void MouseState::operator=(const MouseState& rhs) {
for ( int i=0; i<4; i++ ) {
axis[i] = rhs.axis[i];
}
buttons = rhs.buttons;
}
void MouseState::operator=(const MouseState &rhs) {
for (int i = 0; i < 4; i++) {
axis[i] = rhs.axis[i];
}
buttons = rhs.buttons;
}
} // namespace fggl::input
fggl/math/CMakeLists.txt
View file @ bd58e207
# math
find_package( glm CONFIG REQUIRED )
target_link_libraries( fggl PUBLIC glm::glm )
find_package(glm CONFIG REQUIRED)
target_link_libraries(fggl PUBLIC glm::glm)
target_sources(fggl
PRIVATE
shapes.cpp
triangulation.cpp
)
shapes.cpp
triangulation.cpp
)
fggl/math/shapes.cpp
View file @ bd58e207
......@@ -19,21 +19,17 @@ namespace fggl::math::phs3d {
void AABB::emtpy() {
min = {FLT_MAX, FLT_MAX, FLT_MAX};
max = { - FLT_MAX, - FLT_MAX, -FLT_MAX};
max = {-FLT_MAX, -FLT_MAX, -FLT_MAX};
}
void AABB::add(const math::vec3 &p) {
if ( p.x < min.x ) min.x = p.x;
if ( p.x > max.x ) max.x = p.x;
if ( p.y < min.y ) min.y = p.y;
if ( p.y > min.y ) max.y = p.y;
if ( p.z < min.z ) min.z = p.z;
if ( p.z > max.z ) max.z = p.z;
void AABB::add(const math::vec3 &point) {
min = minElm(min, point);
max = maxElm(max, point);
}
AABB AABB::fromPoints(const std::vector<math::vec3> &points) {
auto AABB::fromPoints(const std::vector<math::vec3> &points) -> AABB {
AABB box;
for (const auto& point : points) {
for (const auto &point : points) {
box.add(point);
}
return box;
......@@ -44,9 +40,9 @@ namespace fggl::math::phs3d {
min = max = m[3]; // should be the translation component of the matrix
// this feels like something that should be vectorizable...
for ( int i = 0; i < 3; i++) {
for (int i = 0; i < 3; i++) {
for (int j = 0; j < 3; j++) {
if ( m[i][j] > 0.0f ) {
if (m[i][j] > 0.0F) {
min[j] += m[i][j] * other.min[j];
max[j] += m[i][j] * other.max[j];
} else {
......@@ -57,7 +53,7 @@ namespace fggl::math::phs3d {
}
}
Plane Plane::fromPoints(const math::vec3 p1, const math::vec3 p2, const math::vec3 p3) {
auto Plane::fromPoints(const math::vec3 p1, const math::vec3 p2, const math::vec3 p3) -> Plane {
const auto e3 = p2 - p1;
const auto e1 = p3 - p2;
auto normal = glm::normalize(glm::cross(e3, e1));
......@@ -65,13 +61,13 @@ namespace fggl::math::phs3d {
return {normal, d};
}
static math::vec3 bestFitNormal(const std::vector<math::vec3>& points) {
static auto bestFitNormal(const std::vector<math::vec3> &points) -> math::vec3 {
assert(!points.empty());
math::vec3 result;
math::vec3 p = points.back();
for ( std::size_t i = 0; i < points.size(); ++i ){
for (std::size_t i = 0; i < points.size(); ++i) {
math::vec3 c = points[i];
result.x += (p.z + c.z) * (p.y - c.y);
......@@ -84,13 +80,13 @@ namespace fggl::math::phs3d {
return glm::normalize(result);
};
static float bestFitD(const std::vector<math::vec3>& points, glm::vec3 normal) {
static auto bestFitD(const std::vector<math::vec3> &points, glm::vec3 normal) -> float {
math::vec3 sum;
for (auto& point : points) {
for (const auto &point : points) {
sum += point;
}
sum *= 1.0F/points.size();
return glm::dot( sum, normal );
sum *= 1.0F / points.size();
return glm::dot(sum, normal);
}
const char X = 0;
......@@ -102,11 +98,11 @@ namespace fggl::math::phs3d {
const char b;
};
static bary_axis baryCalcAxis(const math::vec3& normal) {
if ( (fabs(normal.x) >= fabs(normal.y)) && (fabs(normal.x) >= fabs(normal.z))) {
static auto baryCalcAxis(const math::vec3 &normal) -> bary_axis {
if ((fabs(normal.x) >= fabs(normal.y)) && (fabs(normal.x) >= fabs(normal.z))) {
// discard x
return {Y, Z};
} else if ( fabs(normal.y) >= fabs(normal.z) ) {
} else if (fabs(normal.y) >= fabs(normal.z)) {
// discard y
return {Z, X};
} else {
......@@ -115,7 +111,7 @@ namespace fggl::math::phs3d {
}
}
bool Triangle::CartToBarycentric(const math::vec3& cart, Barycentric& outVal) {
auto Triangle::CartToBarycentric(const math::vec3 &cart, Barycentric &outVal) -> bool {
// everything is const because I'm paying the compiler is smarter than me...
const auto d1 = v[1] - v[0];
......@@ -137,20 +133,20 @@ namespace fggl::math::phs3d {
const float v3 = cart[ax.b] - v[0][ax.b];
const float v4 = cart[ax.b] - v[2][ax.b];
const float denom = v1*u2 - v2*u1;
if ( denom == 0.0f) {
const float denom = v1 * u2 - v2 * u1;
if (denom == 0.0F) {
return false;
}
// finally, we can work it out
const float oneOverDenom = 1.0f / denom;
outVal.b[0] = (v4*u2 - v2*u4) * oneOverDenom;
outVal.b[1] = (v1*u3 - v3*u1) * oneOverDenom;
outVal.b[2] = 1.0f - outVal.b[0] - outVal.b[1];
const float oneOverDenom = 1.0F / denom;
outVal.b[0] = (v4 * u2 - v2 * u4) * oneOverDenom;
outVal.b[1] = (v1 * u3 - v3 * u1) * oneOverDenom;
outVal.b[2] = 1.0F - outVal.b[0] - outVal.b[1];
return true;
}
bool Triangle::CartToBarycentric2(const math::vec3& cart, Barycentric& outVal) {
auto Triangle::CartToBarycentric2(const math::vec3 &cart, Barycentric &outVal) -> bool {
const auto e1 = v[2] - v[1];
const auto e2 = v[0] - v[2];
const auto e3 = v[1] - v[0];
......@@ -161,7 +157,7 @@ namespace fggl::math::phs3d {
const auto normal = glm::normalize(glm::cross(e1, e2));
const auto denom = glm::dot(glm::cross(e1, e2), normal);
assert( denom != 0.0f);
assert(denom != 0.0F);
outVal.b[0] = glm::dot(glm::cross(e1, d3), normal) / denom;
outVal.b[1] = glm::dot(glm::cross(e2, d1), normal) / denom;
......
fggl/math/triangulation.cpp
View file @ bd58e207
......@@ -13,14 +13,13 @@
*/
#include "fggl/math/triangulation.hpp"
#include <iostream>
namespace fggl::math {
/**
* Fast Triangulation for convex polygons.
*/
void fan_triangulation(const PolygonVertex& polygon, data::Mesh2D &mesh) {
void fan_triangulation(const PolygonVertex &polygon, data::Mesh2D &mesh) {
assert(polygon.size() >= 3);
// add the first two points to the mesh
......@@ -29,7 +28,7 @@ namespace fggl::math {
// deal with the indices
const auto nTris = polygon.size() - 2;
for (auto i = 0u; i < nTris; i++) {
for (auto i = 0U; i < nTris; i++) {
mesh.add_index(firstIdx);
mesh.add_index(prevIdx);
......
fggl/phys/CMakeLists.txt 0 → 100644
View file @ bd58e207
target_sources(fggl
PRIVATE
null.cpp
)
\ No newline at end of file
fggl/phys/null.cpp 0 → 100644
View file @ bd58e207
/*
* This file is part of FGGL.
*
* FGGL is free software: you can redistribute it and/or modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any
* later version.
*
* FGGL 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License along with FGGL.
* If not, see <https://www.gnu.org/licenses/>.
*/
//
// Created by webpigeon on 20/08/22.
//
#include "fggl/phys/null.hpp"
namespace fggl::phys {
auto NullPhysics::factory(modules::ServiceName serviceName, modules::Services &serviceManager) -> bool {
if (serviceName == phys::PhysicsProvider::service) {
serviceManager.bind<phys::PhysicsProvider, NullPhysicsProvider>();
return true;
}
return false;
}
}
\ No newline at end of file
fggl/platform/CMakeLists.txt
View file @ bd58e207
if ( CMAKE_SYSTEM_NAME MATCHES "Linux" )
if (CMAKE_SYSTEM_NAME MATCHES "Linux")
add_subdirectory(linux)
else()
else ()
add_subdirectory(fallback)
endif()
\ No newline at end of file
endif ()
\ No newline at end of file
fggl/platform/fallback/paths.cpp
View file @ bd58e207
......@@ -16,22 +16,24 @@
// Created by webpigeon on 26/06/22.
//
#define FGGL_PLATFORM_PATHS fallback
#include <cstdlib>
#include "fggl/platform/fallback/paths.hpp"
namespace fggl::platform {
inline static std::filesystem::path get_user_path(const char* env, const char* fallback) {
const char* path = std::getenv(env);
inline static std::filesystem::path get_user_path(const char *env, const char *fallback) {
const char *path = std::getenv(env);
if (path != nullptr) {
return {path};
}
return std::filesystem::current_path() / fallback;
}
EnginePaths calc_engine_paths(const char* base) {
return EnginePaths {
EnginePaths calc_engine_paths(const char *base) {
return EnginePaths{
get_user_path(ENV_USER_CONFIG, DEFAULT_USER_CONFIG) / base,
get_user_path(ENV_USER_DATA, DEFAULT_USER_DATA) / base,
std::filesystem::temp_directory_path() / base
......@@ -40,13 +42,13 @@ namespace fggl::platform {
std::filesystem::path locate_data(const EnginePaths &paths, const std::filesystem::path &relPath) {
auto userPath = paths.userData / relPath;
if ( std::filesystem::exists(userPath) ) {
if (std::filesystem::exists(userPath)) {
return userPath;
}
// if debug mode, try CWD as well.
auto debugPath = std::filesystem::current_path() / "data" / relPath;
if ( std::filesystem::exists(debugPath) ) {
if (std::filesystem::exists(debugPath)) {
return debugPath;
}
......
fggl/platform/linux/CMakeLists.txt
View file @ bd58e207
#find_package(Fontconfig)
#target_link_libraries(fggl PRIVATE Fontconfig::Fontconfig)
target_sources( fggl
PRIVATE
# fonts.cpp
target_sources(fggl
PRIVATE
# fonts.cpp
paths.cpp
)
\ No newline at end of file
)
\ No newline at end of file
fggl/platform/linux/fonts.cpp
View file @ bd58e207
......@@ -21,14 +21,14 @@
namespace fggl::platform::Linux {
void get_font() {
/* FcConfig *config = FcInitLoadConfigAndFonts();
FcPattern* pat = FcPatternCreate();
FcObjectSet* os = FcObjectSetBuild(FC_FAMILY, FC_STYLE, FC_WEIGHT, FC_SLANT, FC_PIXEL_SIZE, FC_SIZE, nullptr);
FcFontSet* fs = FcFontList(config, pat, os);
/* FcConfig *config = FcInitLoadConfigAndFonts();
FcPattern* pat = FcPatternCreate();
FcObjectSet* os = FcObjectSetBuild(FC_FAMILY, FC_STYLE, FC_WEIGHT, FC_SLANT, FC_PIXEL_SIZE, FC_SIZE, nullptr);
FcFontSet* fs = FcFontList(config, pat, os);
if ( fs ) {
FcFontSetDestroy(fs);
}*/
if ( fs ) {
FcFontSetDestroy(fs);
}*/
}
} // namespace fggl::platform::linux
\ No newline at end of file