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renderer.hpp
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renderer.hpp
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/*
* Copyright 2022 Rive
*/
#ifndef _RIVE_RENDERER_HPP_
#define _RIVE_RENDERER_HPP_
#include "rive/enum_bitset.hpp"
#include "rive/shapes/paint/color.hpp"
#include "rive/command_path.hpp"
#include "rive/layout.hpp"
#include "rive/refcnt.hpp"
#include "rive/math/aabb.hpp"
#include "rive/math/mat2d.hpp"
#include "rive/shapes/paint/blend_mode.hpp"
#include "rive/shapes/paint/stroke_cap.hpp"
#include "rive/shapes/paint/stroke_join.hpp"
#include "utils/lite_rtti.hpp"
#include <stdio.h>
#include <cstdint>
namespace rive
{
class Vec2D;
// Helper that computes a matrix to "align" content (source) to fit inside frame
// (destination).
Mat2D computeAlignment(Fit,
Alignment,
const AABB& frame,
const AABB& content,
const float scaleFactor = 1.0f);
enum class RenderBufferType
{
index,
vertex,
};
enum class RenderBufferFlags
{
none = 0,
mappedOnceAtInitialization =
1 << 0, // The client will map the buffer exactly one time, before
// rendering, and will never update it again.
};
RIVE_MAKE_ENUM_BITSET(RenderBufferFlags)
class RenderBuffer : public RefCnt<RenderBuffer>,
public ENABLE_LITE_RTTI(RenderBuffer)
{
public:
RenderBuffer(RenderBufferType, RenderBufferFlags, size_t sizeInBytes);
virtual ~RenderBuffer();
RenderBufferType type() const { return m_type; }
RenderBufferFlags flags() const { return m_flags; }
size_t sizeInBytes() const { return m_sizeInBytes; }
void* map();
void unmap();
protected:
virtual void* onMap() = 0;
virtual void onUnmap() = 0;
// Unset the dirty flag, and return whether it had been set.
bool checkAndResetDirty()
{
assert(m_mapCount == m_unmapCount); // Don't call this while mapped.
if (m_dirty)
{
m_dirty = false;
return true;
}
return false;
}
private:
const RenderBufferType m_type;
const RenderBufferFlags m_flags;
const size_t m_sizeInBytes;
bool m_dirty = false;
RIVE_DEBUG_CODE(size_t m_mapCount = 0;)
RIVE_DEBUG_CODE(size_t m_unmapCount = 0;)
};
enum class RenderPaintStyle
{
stroke,
fill
};
/*
* Base class for Render objects that specify the src colors.
*
* Shaders are immutable, and sharable between multiple paints, etc.
*
* It is common that a shader may be created with a 'localMatrix'. If this is
* not null, then it is applied to the shader's domain before the Renderer's
* CTM.
*/
class RenderShader : public RefCnt<RenderShader>,
public ENABLE_LITE_RTTI(RenderShader)
{
public:
RenderShader();
virtual ~RenderShader();
};
class RenderPaint : public RefCnt<RenderPaint>,
public ENABLE_LITE_RTTI(RenderPaint)
{
public:
RenderPaint();
virtual ~RenderPaint();
virtual void style(RenderPaintStyle style) = 0;
virtual void color(ColorInt value) = 0;
virtual void thickness(float value) = 0;
virtual void join(StrokeJoin value) = 0;
virtual void cap(StrokeCap value) = 0;
virtual void blendMode(BlendMode value) = 0;
virtual void shader(rcp<RenderShader>) = 0;
virtual void invalidateStroke() = 0;
};
#if defined(__EMSCRIPTEN__)
class RenderImageDelegate
{
public:
virtual void decodedAsync() = 0;
};
#endif
class RenderImage : public RefCnt<RenderImage>,
public ENABLE_LITE_RTTI(RenderImage)
{
protected:
int m_Width = 0;
int m_Height = 0;
Mat2D m_uvTransform;
public:
RenderImage();
RenderImage(const Mat2D& uvTransform);
virtual ~RenderImage();
int width() const { return m_Width; }
int height() const { return m_Height; }
const Mat2D& uvTransform() const { return m_uvTransform; }
#if defined(__EMSCRIPTEN__)
void delegate(RenderImageDelegate* delegate) { m_delegate = delegate; }
void decodedAsync() const
{
if (m_delegate != nullptr)
{
m_delegate->decodedAsync();
}
}
private:
RenderImageDelegate* m_delegate = nullptr;
#endif
};
class RenderPath : public CommandPath, public ENABLE_LITE_RTTI(RenderPath)
{
public:
RenderPath();
~RenderPath() override;
RenderPath* renderPath() override { return this; }
void addPath(CommandPath* path, const Mat2D& transform) override
{
addRenderPath(path->renderPath(), transform);
}
virtual void addRenderPath(RenderPath* path, const Mat2D& transform) = 0;
};
class Renderer
{
public:
virtual ~Renderer() {}
virtual void save() = 0;
virtual void restore() = 0;
virtual void transform(const Mat2D& transform) = 0;
virtual void drawPath(RenderPath* path, RenderPaint* paint) = 0;
virtual void clipPath(RenderPath* path) = 0;
virtual void drawImage(const RenderImage*, BlendMode, float opacity) = 0;
virtual void drawImageMesh(const RenderImage*,
rcp<RenderBuffer> vertices_f32,
rcp<RenderBuffer> uvCoords_f32,
rcp<RenderBuffer> indices_u16,
uint32_t vertexCount,
uint32_t indexCount,
BlendMode,
float opacity) = 0;
// helpers
void translate(float x, float y);
void scale(float sx, float sy);
void rotate(float radians);
void align(Fit fit,
Alignment alignment,
const AABB& frame,
const AABB& content,
const float scaleFactor = 1.0f)
{
transform(
computeAlignment(fit, alignment, frame, content, scaleFactor));
}
};
} // namespace rive
#endif