Automatically configure the window to cover the Rift's monitor

[libs/vr.git] / source / ovr / oculusriftcombiner.cpp

#include <cmath>
#include <msp/gl/meshbuilder.h>
#include <msp/gl/texture2d.h>
#include "oculusriftcombiner.h"
#include "oculusriftdevice.h"
#include "oculusriftdevice_private.h"

using namespace std;


namespace {

const char vs_source[] =
        "uniform mat4 timewarp[2];\n"
        "uniform vec2 uv_scale;\n"
        "uniform vec2 uv_offset;\n"
        "varying vec2 texcoord_r;\n"
        "varying vec2 texcoord_g;\n"
        "varying vec2 texcoord_b;\n"
        "varying float vignette;\n"
        "vec2 apply_timewarp(vec2 coords, float factor)\n"
        "{\n"
        "       vec4 coords4 = vec4(coords, 1.0, 1.0);\n"
        "       vec4 warped = mix(timewarp[0]*coords4, timewarp[1]*coords4, factor);\n"
        "       return (warped.xy/warped.z)*uv_scale+uv_offset;\n"
        "}\n"
        "void main()\n"
        "{\n"
        "       gl_Position = vec4(gl_Vertex.xy, 0.5, 1.0);\n"
        "       float tw_factor = gl_MultiTexCoord3.y;\n"
        "       texcoord_r = apply_timewarp(gl_MultiTexCoord0.xy, tw_factor);\n"
        "       texcoord_g = apply_timewarp(gl_MultiTexCoord1.xy, tw_factor);\n"
        "       texcoord_b = apply_timewarp(gl_MultiTexCoord2.xy, tw_factor);\n"
        "       vignette = gl_MultiTexCoord3.x;\n"
        "}\n";

const char fs_source[] =
        "uniform sampler2D texture;\n"
        "varying vec2 texcoord_r;\n"
        "varying vec2 texcoord_g;\n"
        "varying vec2 texcoord_b;\n"
        "varying float vignette;\n"
        "void main()\n"
        "{\n"
        "       float r = texture2D(texture, texcoord_r).r;\n"
        "       float g = texture2D(texture, texcoord_g).g;\n"
        "       float b = texture2D(texture, texcoord_b).b;\n"
        "       gl_FragColor = vec4(vec3(r, g, b)*vignette, 1.0);\n"
        "}\n";

void create_distortion_mesh(Msp::GL::Mesh &mesh, ovrHmd hmd, ovrEyeType eye, const ovrFovPort &fov)
{
        ovrDistortionMesh ovr_mesh;
        ovrHmd_CreateDistortionMesh(hmd, eye, fov, ovrDistortionCap_Vignette|ovrDistortionCap_TimeWarp, &ovr_mesh);

        Msp::GL::MeshBuilder bld(mesh);
        for(unsigned i=0; i<ovr_mesh.VertexCount; ++i)
        {
                ovrDistortionVertex &v = ovr_mesh.pVertexData[i];
                bld.multitexcoord(0, v.TanEyeAnglesR.x, v.TanEyeAnglesR.y);
                bld.multitexcoord(1, v.TanEyeAnglesG.x, v.TanEyeAnglesG.y);
                bld.multitexcoord(2, v.TanEyeAnglesB.x, v.TanEyeAnglesB.y);
                bld.multitexcoord(3, v.VignetteFactor, v.TimeWarpFactor);
                bld.vertex(v.ScreenPosNDC.x, v.ScreenPosNDC.y);
        }

        Msp::GL::Batch batch(Msp::GL::TRIANGLES);
        batch.append(vector<unsigned>(ovr_mesh.pIndexData, ovr_mesh.pIndexData+ovr_mesh.IndexCount));
        mesh.add_batch(batch);

        ovrHmd_DestroyDistortionMesh(&ovr_mesh);
}

}

namespace Msp {
namespace VR {

OculusRiftCombiner::OculusRiftCombiner(OculusRiftDevice &d, GL::View &v):
        device(d),
        view(v),
        left_mesh((GL::VERTEX2, GL::TEXCOORD2,0, GL::TEXCOORD2,1, GL::TEXCOORD2,2, GL::TEXCOORD2,3)),
        right_mesh((GL::VERTEX2, GL::TEXCOORD2,0, GL::TEXCOORD2,1, GL::TEXCOORD2,2, GL::TEXCOORD2,3)),
        shprog(vs_source, fs_source)
{
        ovrHmd hmd = device.get_private().ovr_hmd;

        ovrFovPort left_fov = hmd->DefaultEyeFov[ovrEye_Left];
        ovrFovPort right_fov = hmd->DefaultEyeFov[ovrEye_Right];
        float vertical = max(max(left_fov.UpTan, left_fov.DownTan), max(right_fov.UpTan, right_fov.DownTan));
        fov = Geometry::atan<float>(vertical)*2.0f;

        float inner = max(left_fov.RightTan, right_fov.LeftTan);
        float outer = max(left_fov.LeftTan, right_fov.RightTan);
        frustum_skew = (inner-outer)/(inner+outer);

        left_fov.UpTan = right_fov.UpTan = vertical;
        left_fov.DownTan = right_fov.DownTan = vertical;
        left_fov.RightTan = right_fov.LeftTan = inner;
        left_fov.LeftTan = right_fov.RightTan = outer;

        create_distortion_mesh(left_mesh, hmd, ovrEye_Left, left_fov);
        create_distortion_mesh(right_mesh, hmd, ovrEye_Right, right_fov);

        ovrSizei tex_size = ovrHmd_GetFovTextureSize(hmd, ovrEye_Left, left_fov, 1.0);
        target_width = tex_size.w;
        target_height = tex_size.h;
        render_aspect = (inner+outer)/(vertical*2);

        left_shdata.uniform("texture", 0);
        right_shdata.uniform("texture", 0);

        ovrRecti view_rect;
        view_rect.Pos.x = 0;
        view_rect.Pos.y = 0;
        view_rect.Size = tex_size;
        ovrVector2f uv_scale_offset[2];
        ovrHmd_GetRenderScaleAndOffset(left_fov, tex_size, view_rect, uv_scale_offset);
        left_shdata.uniform("uv_scale", uv_scale_offset[0].x, -uv_scale_offset[0].y);
        left_shdata.uniform("uv_offset", uv_scale_offset[1].x, 1-uv_scale_offset[1].y);
        ovrHmd_GetRenderScaleAndOffset(right_fov, tex_size, view_rect, uv_scale_offset);
        right_shdata.uniform("uv_scale", uv_scale_offset[0].x, -uv_scale_offset[0].y);
        right_shdata.uniform("uv_offset", uv_scale_offset[1].x, 1-uv_scale_offset[1].y);

        device.configure_window(view.get_window());
}

void OculusRiftCombiner::prepare() const
{
        device.begin_frame();
}

void OculusRiftCombiner::render(const GL::Texture2D &left, const GL::Texture2D &right) const
{
        GL::Bind bind_shprog(shprog);

        ovrHmd hmd = device.get_private().ovr_hmd;

        if(device.is_timing_active())
        {
                ovr_WaitTillTime(device.get_timewarp_time());
                ovrTrackingState state = ovrHmd_GetTrackingState(hmd, device.get_tracking_time());

                ovrMatrix4f matrices[2];
                ovrHmd_GetEyeTimewarpMatrices(hmd, ovrEye_Left, state.HeadPose.ThePose, matrices);
                left_shdata.uniform_matrix4_array("timewarp", 2, &matrices[0].M[0][0]);

                ovrHmd_GetEyeTimewarpMatrices(hmd, ovrEye_Right, state.HeadPose.ThePose, matrices);
                right_shdata.uniform_matrix4_array("timewarp", 2, &matrices[0].M[0][0]);
        }
        else
        {
                GL::Matrix matrices[2];
                left_shdata.uniform_matrix4_array("timewarp", 2, matrices[0].data());
                right_shdata.uniform_matrix4_array("timewarp", 2, matrices[0].data());
        }

        GL::Bind bind_tex(left);
        left_shdata.apply();
        left_mesh.draw();

        right.bind();
        right_shdata.apply();
        right_mesh.draw();

        view.get_context().swap_buffers();
        device.end_frame();
}

} // namespace VR
} // namespace Msp