solvespace/src/render/rendercairo.cpp

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//-----------------------------------------------------------------------------
// A rendering backend that draws on a Cairo surface.
//
// Copyright 2016 whitequark
//-----------------------------------------------------------------------------
#include <cairo.h>
#include "solvespace.h"
namespace SolveSpace {
void CairoRenderer::OutputStart() {
cairo_save(context);
RgbaColor bgColor = lighting.backgroundColor;
cairo_rectangle(context, 0.0, 0.0, camera.width, camera.height);
cairo_set_source_rgba(context, bgColor.redF(), bgColor.greenF(), bgColor.blueF(),
bgColor.alphaF());
cairo_fill(context);
cairo_translate(context, camera.width / 2.0, camera.height / 2.0);
cairo_set_line_join(context, CAIRO_LINE_JOIN_ROUND);
cairo_set_line_cap(context, CAIRO_LINE_CAP_ROUND);
}
void CairoRenderer::OutputEnd() {
FinishPath();
cairo_restore(context);
cairo_surface_flush(cairo_get_target(context));
}
void CairoRenderer::SelectStroke(hStroke hcs) {
if(current.hcs.v == hcs.v) return;
FinishPath();
Stroke *stroke = strokes.FindById(hcs);
current.hcs = hcs;
RgbaColor color = stroke->color;
std::vector<double> dashes =
StipplePatternDashes(stroke->stipplePattern, stroke->stippleScale * camera.scale);
cairo_set_line_width(context, stroke->width);
cairo_set_dash(context, dashes.data(), dashes.size(), 0);
cairo_set_source_rgba(context, color.redF(), color.greenF(), color.blueF(),
color.alphaF());
if(antialias) {
cairo_set_antialias(context, CAIRO_ANTIALIAS_GRAY);
} else {
cairo_set_antialias(context, CAIRO_ANTIALIAS_NONE);
}
}
void CairoRenderer::MoveTo(Vector p) {
Point2d pos;
cairo_get_current_point(context, &pos.x, &pos.y);
if(cairo_has_current_point(context) && pos.Equals(p.ProjectXy())) return;
FinishPath();
cairo_move_to(context, p.x, p.y);
}
void CairoRenderer::FinishPath() {
if(!cairo_has_current_point(context)) return;
cairo_stroke(context);
}
void CairoRenderer::OutputBezier(const SBezier &b, hStroke hcs) {
SelectStroke(hcs);
Vector c, n = Vector::From(0, 0, 1);
double r;
if(b.deg == 1) {
MoveTo(b.ctrl[0]);
cairo_line_to(context,
b.ctrl[1].x, b.ctrl[1].y);
} else if(b.IsCircle(n, &c, &r)) {
MoveTo(b.ctrl[0]);
double theta0 = atan2(b.ctrl[0].y - c.y, b.ctrl[0].x - c.x),
theta1 = atan2(b.ctrl[2].y - c.y, b.ctrl[2].x - c.x),
dtheta = WRAP_SYMMETRIC(theta1 - theta0, 2*PI);
if(dtheta > 0) {
cairo_arc(context,
c.x, c.y, r, theta0, theta1);
} else {
cairo_arc_negative(context,
c.x, c.y, r, theta0, theta1);
}
} else if(b.deg == 3 && !b.IsRational()) {
MoveTo(b.ctrl[0]);
cairo_curve_to(context,
b.ctrl[1].x, b.ctrl[1].y,
b.ctrl[2].x, b.ctrl[2].y,
b.ctrl[3].x, b.ctrl[3].y);
} else {
OutputBezierAsNonrationalCubic(b, hcs);
}
}
void CairoRenderer::OutputTriangle(const STriangle &tr) {
FinishPath();
current.hcs = {};
RgbaColor color = tr.meta.color;
cairo_set_source_rgba(context, color.redF(), color.greenF(), color.blueF(),
color.alphaF());
cairo_set_antialias(context, CAIRO_ANTIALIAS_NONE);
cairo_move_to(context, tr.a.x, tr.a.y);
cairo_line_to(context, tr.b.x, tr.b.y);
cairo_line_to(context, tr.c.x, tr.c.y);
cairo_fill(context);
}
}