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| author | Pierre Krieger <pierre.krieger1708@gmail.com> | 2015-12-19 13:06:50 +0100 |
|---|---|---|
| committer | Pierre Krieger <pierre.krieger1708@gmail.com> | 2015-12-19 13:06:50 +0100 |
| commit | 95a60ee32965fa523aa8e9d8694df7c08b9da0ff (patch) | |
| tree | b3e61365d99f2c01f973aca461616885e38336da /src | |
| parent | 0b6418fabbeb0ec9cd326c5397969aceb06f1b41 (diff) | |
| download | glutin-95a60ee32965fa523aa8e9d8694df7c08b9da0ff.tar.gz glutin-95a60ee32965fa523aa8e9d8694df7c08b9da0ff.zip | |
Switch WGL to ChoosePixelFormat
Diffstat (limited to 'src')
| -rw-r--r-- | src/api/wgl/mod.rs | 408 | ||||
| -rw-r--r-- | src/lib.rs | 1 |
2 files changed, 304 insertions, 105 deletions
diff --git a/src/api/wgl/mod.rs b/src/api/wgl/mod.rs index 77e3f83..dcd16b6 100644 --- a/src/api/wgl/mod.rs +++ b/src/api/wgl/mod.rs @@ -8,6 +8,7 @@ use GlRequest; use GlProfile; use PixelFormat; use PixelFormatRequirements; +use ReleaseBehavior; use Robustness; use Api; @@ -107,20 +108,16 @@ impl Context { // calling SetPixelFormat let pixel_format = { - let formats = if extensions.split(' ').find(|&i| i == "WGL_ARB_pixel_format") + let (id, f) = if extensions.split(' ').find(|&i| i == "WGL_ARB_pixel_format") .is_some() { - let f = enumerate_arb_pixel_formats(&extra_functions, &extensions, hdc); - if f.is_empty() { - enumerate_native_pixel_formats(hdc) - } else { - f - } + try!(choose_arb_pixel_format(&extra_functions, &extensions, hdc, pf_reqs) + .map_err(|_| CreationError::NoAvailablePixelFormat)) } else { - enumerate_native_pixel_formats(hdc) + try!(choose_native_pixel_format(hdc, pf_reqs) + .map_err(|_| CreationError::NoAvailablePixelFormat)) }; - let (id, f) = try!(pf_reqs.choose_pixel_format(formats)); try!(set_pixel_format(hdc, id)); f }; @@ -349,117 +346,297 @@ unsafe fn create_context(extra: Option<(&gl::wgl_extra::Wgl, &PixelFormatRequire Ok(ContextWrapper(ctxt as winapi::HGLRC)) } -/// Enumerates the list of pixel formats without using WGL. +/// Chooses a pixel formats without using WGL. /// /// Gives less precise results than `enumerate_arb_pixel_formats`. -unsafe fn enumerate_native_pixel_formats(hdc: winapi::HDC) -> Vec<(c_int, PixelFormat)> { - let size_of_pxfmtdescr = mem::size_of::<winapi::PIXELFORMATDESCRIPTOR>() as u32; - let num = gdi32::DescribePixelFormat(hdc, 1, size_of_pxfmtdescr, ptr::null_mut()); +unsafe fn choose_native_pixel_format(hdc: winapi::HDC, reqs: &PixelFormatRequirements) + -> Result<(c_int, PixelFormat), ()> +{ + // TODO: hardware acceleration is not handled - let mut result = Vec::new(); + // handling non-supported stuff + if reqs.float_color_buffer { + return Err(()); + } - for index in (0 .. num) { - let mut output: winapi::PIXELFORMATDESCRIPTOR = mem::zeroed(); - - if gdi32::DescribePixelFormat(hdc, index, size_of_pxfmtdescr, &mut output) == 0 { - continue; - } + match reqs.multisampling { + Some(0) => (), + None => (), + Some(_) => return Err(()) + }; - if (output.dwFlags & winapi::PFD_DRAW_TO_WINDOW) == 0 { - continue; - } + if reqs.stereoscopy { + return Err(()); + } - if (output.dwFlags & winapi::PFD_SUPPORT_OPENGL) == 0 { - continue; - } + if reqs.srgb { + return Err(()); + } - if output.iPixelType != winapi::PFD_TYPE_RGBA { - continue; - } + if reqs.release_behavior != ReleaseBehavior::Flush { + return Err(()); + } + + // building the descriptor to pass to ChoosePixelFormat + let descriptor = winapi::PIXELFORMATDESCRIPTOR { + nSize: mem::size_of::<winapi::PIXELFORMATDESCRIPTOR>() as u16, + nVersion: 1, + dwFlags: { + let f1 = match reqs.double_buffer { + None => winapi::PFD_DOUBLEBUFFER_DONTCARE, + Some(true) => winapi::PFD_DOUBLEBUFFER, + Some(false) => 0, + }; + + let f2 = if reqs.stereoscopy { + winapi::PFD_STEREO + } else { + 0 + }; + + winapi::PFD_DRAW_TO_WINDOW | winapi::PFD_SUPPORT_OPENGL | f1 | f2 + }, + iPixelType: winapi::PFD_TYPE_RGBA, + cColorBits: reqs.color_bits.unwrap_or(0), + cRedBits: 0, + cRedShift: 0, + cGreenBits: 0, + cGreenShift: 0, + cBlueBits: 0, + cBlueShift: 0, + cAlphaBits: reqs.alpha_bits.unwrap_or(0), + cAlphaShift: 0, + cAccumBits: 0, + cAccumRedBits: 0, + cAccumGreenBits: 0, + cAccumBlueBits: 0, + cAccumAlphaBits: 0, + cDepthBits: reqs.depth_bits.unwrap_or(0), + cStencilBits: reqs.stencil_bits.unwrap_or(0), + cAuxBuffers: 0, + iLayerType: winapi::PFD_MAIN_PLANE, + bReserved: 0, + dwLayerMask: 0, + dwVisibleMask: 0, + dwDamageMask: 0, + }; + + // now querying + let pf_id = gdi32::ChoosePixelFormat(hdc, &descriptor); + if pf_id == 0 { + return Err(()); + } + + // querying back the capabilities of what windows told us + let mut output: winapi::PIXELFORMATDESCRIPTOR = mem::zeroed(); + if gdi32::DescribePixelFormat(hdc, pf_id, mem::size_of::<winapi::PIXELFORMATDESCRIPTOR>() as u32, + &mut output) == 0 + { + return Err(()); + } - result.push((index, PixelFormat { - hardware_accelerated: (output.dwFlags & winapi::PFD_GENERIC_FORMAT) == 0, - color_bits: output.cRedBits + output.cGreenBits + output.cBlueBits, - alpha_bits: output.cAlphaBits, - depth_bits: output.cDepthBits, - stencil_bits: output.cStencilBits, - stereoscopy: (output.dwFlags & winapi::PFD_STEREO) != 0, - double_buffer: (output.dwFlags & winapi::PFD_DOUBLEBUFFER) != 0, - multisampling: None, - srgb: false, - })); + // windows may return us a non-conforming pixel format if none are supported, so we have to + // check this + if (output.dwFlags & winapi::PFD_DRAW_TO_WINDOW) == 0 { + return Err(()); + } + if (output.dwFlags & winapi::PFD_SUPPORT_OPENGL) == 0 { + return Err(()); } + if output.iPixelType != winapi::PFD_TYPE_RGBA { + return Err(()); + } + + let pf_desc = PixelFormat { + hardware_accelerated: (output.dwFlags & winapi::PFD_GENERIC_FORMAT) == 0, + color_bits: output.cRedBits + output.cGreenBits + output.cBlueBits, + alpha_bits: output.cAlphaBits, + depth_bits: output.cDepthBits, + stencil_bits: output.cStencilBits, + stereoscopy: (output.dwFlags & winapi::PFD_STEREO) != 0, + double_buffer: (output.dwFlags & winapi::PFD_DOUBLEBUFFER) != 0, + multisampling: None, + srgb: false, + }; - result + if pf_desc.alpha_bits < reqs.alpha_bits.unwrap_or(0) { + return Err(()); + } + if pf_desc.depth_bits < reqs.depth_bits.unwrap_or(0) { + return Err(()); + } + if pf_desc.stencil_bits < reqs.stencil_bits.unwrap_or(0) { + return Err(()); + } + if pf_desc.color_bits < reqs.color_bits.unwrap_or(0) { + return Err(()); + } + if let Some(req) = reqs.hardware_accelerated { + if pf_desc.hardware_accelerated != req { + return Err(()); + } + } + if let Some(req) = reqs.double_buffer { + if pf_desc.double_buffer != req { + return Err(()); + } + } + + Ok((pf_id, pf_desc)) } /// Enumerates the list of pixel formats by using extra WGL functions. /// /// Gives more precise results than `enumerate_native_pixel_formats`. -unsafe fn enumerate_arb_pixel_formats(extra: &gl::wgl_extra::Wgl, extensions: &str, - hdc: winapi::HDC) -> Vec<(c_int, PixelFormat)> +unsafe fn choose_arb_pixel_format(extra: &gl::wgl_extra::Wgl, extensions: &str, + hdc: winapi::HDC, reqs: &PixelFormatRequirements) + -> Result<(c_int, PixelFormat), ()> { - let get_info = |index: u32, attrib: u32| { - let mut value = mem::uninitialized(); - extra.GetPixelFormatAttribivARB(hdc as *const _, index as c_int, - 0, 1, [attrib as c_int].as_ptr(), - &mut value); - value as u32 - }; + let descriptor = { + let mut out: Vec<c_int> = Vec::with_capacity(37); - // getting the number of formats - // the `1` is ignored - let num = get_info(1, gl::wgl_extra::NUMBER_PIXEL_FORMATS_ARB); + out.push(gl::wgl_extra::DRAW_TO_WINDOW_ARB as c_int); + out.push(1); - let mut result = Vec::new(); + out.push(gl::wgl_extra::SUPPORT_OPENGL_ARB as c_int); + out.push(1); - for index in (0 .. num) { - if get_info(index, gl::wgl_extra::DRAW_TO_WINDOW_ARB) == 0 { - continue; + out.push(gl::wgl_extra::PIXEL_TYPE_ARB as c_int); + if reqs.float_color_buffer { + if extensions.split(' ').find(|&i| i == "WGL_ARB_pixel_format_float").is_some() { + out.push(gl::wgl_extra::TYPE_RGBA_FLOAT_ARB as c_int); + } else { + return Err(()); + } + } else { + out.push(gl::wgl_extra::TYPE_RGBA_ARB as c_int); } - if get_info(index, gl::wgl_extra::SUPPORT_OPENGL_ARB) == 0 { - continue; + + if let Some(hardware_accelerated) = reqs.hardware_accelerated { + out.push(gl::wgl_extra::ACCELERATION_ARB as c_int); + out.push(if hardware_accelerated { + gl::wgl_extra::FULL_ACCELERATION_ARB as c_int + } else { + gl::wgl_extra::NO_ACCELERATION_ARB as c_int + }); } - if get_info(index, gl::wgl_extra::ACCELERATION_ARB) == gl::wgl_extra::NO_ACCELERATION_ARB { - continue; + if let Some(color) = reqs.color_bits { + out.push(gl::wgl_extra::COLOR_BITS_ARB as c_int); + out.push(color as c_int); } - if get_info(index, gl::wgl_extra::PIXEL_TYPE_ARB) != gl::wgl_extra::TYPE_RGBA_ARB { - continue; + if let Some(alpha) = reqs.alpha_bits { + out.push(gl::wgl_extra::ALPHA_BITS_ARB as c_int); + out.push(alpha as c_int); } - result.push((index as c_int, PixelFormat { - hardware_accelerated: true, - color_bits: get_info(index, gl::wgl_extra::RED_BITS_ARB) as u8 + - get_info(index, gl::wgl_extra::GREEN_BITS_ARB) as u8 + - get_info(index, gl::wgl_extra::BLUE_BITS_ARB) as u8, - alpha_bits: get_info(index, gl::wgl_extra::ALPHA_BITS_ARB) as u8, - depth_bits: get_info(index, gl::wgl_extra::DEPTH_BITS_ARB) as u8, - stencil_bits: get_info(index, gl::wgl_extra::STENCIL_BITS_ARB) as u8, - stereoscopy: get_info(index, gl::wgl_extra::STEREO_ARB) != 0, - double_buffer: get_info(index, gl::wgl_extra::DOUBLE_BUFFER_ARB) != 0, - multisampling: { - if extensions.split(' ').find(|&i| i == "WGL_ARB_multisample").is_some() { - match get_info(index, gl::wgl_extra::SAMPLES_ARB) { - 0 => None, - a => Some(a as u16), - } - } else { - None - } - }, - srgb: if extensions.split(' ').find(|&i| i == "WGL_ARB_framebuffer_sRGB").is_some() { - get_info(index, gl::wgl_extra::FRAMEBUFFER_SRGB_CAPABLE_ARB) != 0 + if let Some(depth) = reqs.depth_bits { + out.push(gl::wgl_extra::DEPTH_BITS_ARB as c_int); + out.push(depth as c_int); + } + + if let Some(stencil) = reqs.stencil_bits { + out.push(gl::wgl_extra::STENCIL_BITS_ARB as c_int); + out.push(stencil as c_int); + } + + if let Some(double_buffer) = reqs.double_buffer { + out.push(gl::wgl_extra::DOUBLE_BUFFER_ARB as c_int); + out.push(if double_buffer { 1 } else { 0 }); + } + + if let Some(multisampling) = reqs.multisampling { + if extensions.split(' ').find(|&i| i == "WGL_ARB_multisample").is_some() { + out.push(gl::wgl_extra::SAMPLE_BUFFERS_ARB as c_int); + out.push(if multisampling == 0 { 0 } else { 1 }); + out.push(gl::wgl_extra::SAMPLES_ARB as c_int); + out.push(multisampling as c_int); + } else { + return Err(()); + } + } + + out.push(gl::wgl_extra::STEREO_ARB as c_int); + out.push(if reqs.stereoscopy { 1 } else { 0 }); + + if reqs.srgb { + if extensions.split(' ').find(|&i| i == "WGL_ARB_framebuffer_sRGB").is_some() { + out.push(gl::wgl_extra::FRAMEBUFFER_SRGB_CAPABLE_ARB as c_int); + out.push(1); } else if extensions.split(' ').find(|&i| i == "WGL_EXT_framebuffer_sRGB").is_some() { - get_info(index, gl::wgl_extra::FRAMEBUFFER_SRGB_CAPABLE_EXT) != 0 + out.push(gl::wgl_extra::FRAMEBUFFER_SRGB_CAPABLE_EXT as c_int); + out.push(1); } else { - false + return Err(()); + } + } + + match reqs.release_behavior { + ReleaseBehavior::Flush => (), + ReleaseBehavior::None => { + if extensions.split(' ').find(|&i| i == "WGL_ARB_context_flush_control").is_some() { + out.push(gl::wgl_extra::CONTEXT_RELEASE_BEHAVIOR_ARB as c_int); + out.push(gl::wgl_extra::CONTEXT_RELEASE_BEHAVIOR_NONE_ARB as c_int); + } }, - })); + } + + out.push(0); + out + }; + + let mut format_id = mem::uninitialized(); + let mut num_formats = mem::uninitialized(); + if extra.ChoosePixelFormatARB(hdc as *const _, descriptor.as_ptr(), ptr::null(), 1, + &mut format_id, &mut num_formats) == 0 + { + return Err(()); } - result + if num_formats == 0 { + return Err(()); + } + + let get_info = |attrib: u32| { + let mut value = mem::uninitialized(); + extra.GetPixelFormatAttribivARB(hdc as *const _, format_id as c_int, + 0, 1, [attrib as c_int].as_ptr(), + &mut value); + value as u32 + }; + + let pf_desc = PixelFormat { + hardware_accelerated: get_info(gl::wgl_extra::ACCELERATION_ARB) != + gl::wgl_extra::NO_ACCELERATION_ARB, + color_bits: get_info(gl::wgl_extra::RED_BITS_ARB) as u8 + + get_info(gl::wgl_extra::GREEN_BITS_ARB) as u8 + + get_info(gl::wgl_extra::BLUE_BITS_ARB) as u8, + alpha_bits: get_info(gl::wgl_extra::ALPHA_BITS_ARB) as u8, + depth_bits: get_info(gl::wgl_extra::DEPTH_BITS_ARB) as u8, + stencil_bits: get_info(gl::wgl_extra::STENCIL_BITS_ARB) as u8, + stereoscopy: get_info(gl::wgl_extra::STEREO_ARB) != 0, + double_buffer: get_info(gl::wgl_extra::DOUBLE_BUFFER_ARB) != 0, + multisampling: { + if extensions.split(' ').find(|&i| i == "WGL_ARB_multisample").is_some() { + match get_info(gl::wgl_extra::SAMPLES_ARB) { + 0 => None, + a => Some(a as u16), + } + } else { + None + } + }, + srgb: if extensions.split(' ').find(|&i| i == "WGL_ARB_framebuffer_sRGB").is_some() { + get_info(gl::wgl_extra::FRAMEBUFFER_SRGB_CAPABLE_ARB) != 0 + } else if extensions.split(' ').find(|&i| i == "WGL_EXT_framebuffer_sRGB").is_some() { + get_info(gl::wgl_extra::FRAMEBUFFER_SRGB_CAPABLE_EXT) != 0 + } else { + false + }, + }; + + Ok((format_id, pf_desc)) } /// Calls `SetPixelFormat` on a window. @@ -550,8 +727,7 @@ unsafe fn load_extra_functions(window: winapi::HWND) -> Result<gl::wgl_extra::Wg // getting the pixel format that we will use and setting it { - let formats = enumerate_native_pixel_formats(dummy_window.1); - let id = try!(choose_dummy_pixel_format(formats.into_iter())); + let id = try!(choose_dummy_pixel_format(dummy_window.1)); try!(set_pixel_format(dummy_window.1, id)); } @@ -568,22 +744,44 @@ unsafe fn load_extra_functions(window: winapi::HWND) -> Result<gl::wgl_extra::Wg })) } -/// Given a list of pixel formats, this function chooses one that is likely to be provided by +/// This function chooses a pixel format that is likely to be provided by /// the main video driver of the system. -fn choose_dummy_pixel_format<I>(iter: I) -> Result<c_int, CreationError> - where I: Iterator<Item=(c_int, PixelFormat)> -{ - let mut backup_id = None; - - for (id, format) in iter { - if backup_id.is_none() { - backup_id = Some(id); - } +fn choose_dummy_pixel_format(hdc: winapi::HDC) -> Result<c_int, CreationError> { + // building the descriptor to pass to ChoosePixelFormat + let descriptor = winapi::PIXELFORMATDESCRIPTOR { + nSize: mem::size_of::<winapi::PIXELFORMATDESCRIPTOR>() as u16, + nVersion: 1, + dwFlags: winapi::PFD_DRAW_TO_WINDOW | winapi::PFD_SUPPORT_OPENGL | winapi::PFD_DOUBLEBUFFER, + iPixelType: winapi::PFD_TYPE_RGBA, + cColorBits: 24, + cRedBits: 0, + cRedShift: 0, + cGreenBits: 0, + cGreenShift: 0, + cBlueBits: 0, + cBlueShift: 0, + cAlphaBits: 8, + cAlphaShift: 0, + cAccumBits: 0, + cAccumRedBits: 0, + cAccumGreenBits: 0, + cAccumBlueBits: 0, + cAccumAlphaBits: 0, + cDepthBits: 24, + cStencilBits: 8, + cAuxBuffers: 0, + iLayerType: winapi::PFD_MAIN_PLANE, + bReserved: 0, + dwLayerMask: 0, + dwVisibleMask: 0, + dwDamageMask: 0, + }; - if format.hardware_accelerated { - return Ok(id); - } + // now querying + let pf_id = unsafe { gdi32::ChoosePixelFormat(hdc, &descriptor) }; + if pf_id == 0 { + return Err(CreationError::OsError("No available pixel format".to_owned())); } - backup_id.ok_or(CreationError::OsError("No available pixel format".to_string())) + Ok(pf_id) } @@ -399,6 +399,7 @@ pub struct PixelFormat { } /// Describes how the backend should choose a pixel format. +// TODO: swap method? (swap, copy) #[derive(Clone, Debug)] pub struct PixelFormatRequirements { /// If true, only hardware-accelerated formats will be conisdered. If false, only software |