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Viewport
DirectXTK | SimpleMath |
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Viewport class modeled after the XNA Game Studio 4 (Microsoft.Xna.Framework.Viewport
) graphics library.
#include <SimpleMath.h>
using namespace DirectX::SimpleMath;
Viewport vp; // Creates the viewport [0,0,0,0,0,1]
Viewport vp(0,0,640,480); // Creates the viewport [0,0,640,480,0,1]
Viewport vp(0,0,640,480,0.1f,0.9f); // Creates the viewport [0,0,640.480,0.1,0.9]
RECT rct;
rct.top = 0;
rct.left = 0;
rct.right = 640;
rct.bottom = 480;
Viewport vp(rct); // Creates the viewport [0,0,640,480,0,1]
- x: Upper left x position of the viewport
- y: Upper left y position of the viewport
- width: The width of the viewport
- height: The height of the viewport
- minDepth: The minimum depth of the viewport
- maxDepth: The maximum depth of the viewport
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Comparison operators:
==
and!=
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Assignment operators:
=
-
AspectRatio: Compute the aspect ratio. If the width or height is zero, it returns 0
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Project: Projects a 3D point using given world, view, and projection matrices an the viewport, moving from world coordinates to screen space.
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Unproject: Reverse projects a 3D point using given world, view, and projection matrices an the viewport moving from screen space to world coordinates.
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ComputeDisplayArea: When using various scaling modes via
DXGI_SWAP_CHAIN_DESC1.Scaling
, the backbuffer width and height is not necessarily the same size as the output window. Given the backbuffer width and height in pixels, the window output width and height in pixels, and the scaling setting, this function computes the pixel rectangle where the backbuffer content is visible within the window. This can be used to handle mouse/touch input and map back to the pixel location within the backbuffer.
If using ICoreWindow, be sure to convert logicalWidth and logicalHeight from DIPs to pixels using the window's DPI property.
int ConvertDipsToPixels(float dips, float dpi) { return int(dips * dpi / 96.f + 0.5f); }
- ComputeTitleSafeArea: When displaying on televisions, edges of the screen can't always be seen by users. This function takes a backbuffer width and height in pixels and returns a safe area rectangle for the content to be displayed. This function uses the SMPTE RP 2046-2 standard of 90% safe area intended for LCDs, rather than the older SMPTE RP 218 intended for CRTs that used 80% safe area which is what the original XNA Game Studio math function implemented.
Note that the XNA Game Studio equivalent of this function only returned the reduced safe area on Xbox, and returns the full rectangle otherwise on Windows phone and PC. Because the Universal Windows Platform app can share a single binary or set of binaries across many devices, it is up to the app to determine what device it is currently running under. Therefore, this function always returns the reduced safe area and it is up to the app to apply this in the correct circumstances.
If you include the SimpleMath.h
header after you include d3d11.h
, then the Viewport can be converted to and from a D3D11_VIEWPORT
structure.
To use with Direct3D 11, you typically need an address of the viewport as a const D3D11_VIEWPORT*
which is provided by Get11
:
Viewport viewPort(0.0f, 0.0f, outputWidth, outputHeight);
context->RSSetViewports(1, viewPort.Get11());
If you include the SimpleMath.h
header after you include d3d12.h
, then the Viewport can be converted to and from a D3D12_VIEWPORT
structure.
To use with Direct3D 12, you typically need an address of the viewport as a const D3D12_VIEWPORT*
which is provided by Get12
:
Viewport viewPort(0.0f, 0.0f, outputWidth, outputHeight);
commandList->RSSetViewports(1, viewPort.Get12());
All content and source code for this package are subject to the terms of the MIT License.
This project has adopted the Microsoft Open Source Code of Conduct. For more information see the Code of Conduct FAQ or contact [email protected] with any additional questions or comments.
- Universal Windows Platform apps
- Windows desktop apps
- Windows 11
- Windows 10
- Windows 8.1
- Windows 7 Service Pack 1
- Xbox One
- x86
- x64
- ARM64
- Visual Studio 2022
- Visual Studio 2019 (16.11)
- clang/LLVM v12 - v18
- MinGW 12.2, 13.2
- CMake 3.20