bgfx/examples/28-wireframe/wireframe.cpp

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/*
* Copyright 2016 Dario Manesku. All rights reserved.
* License: https://github.com/bkaradzic/bgfx#license-bsd-2-clause
*/
#include "common.h"
#include "bgfx_utils.h"
#include "imgui/imgui.h"
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struct DrawMode
{
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enum
{
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WireframeShaded,
Wireframe,
Shaded,
};
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};
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struct Camera
{
Camera()
{
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reset();
}
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void reset()
{
m_target.curr[0] = 0.0f;
m_target.curr[1] = 0.0f;
m_target.curr[2] = 0.0f;
m_target.dest[0] = 0.0f;
m_target.dest[1] = 0.0f;
m_target.dest[2] = 0.0f;
m_pos.curr[0] = 0.0f;
m_pos.curr[1] = 0.0f;
m_pos.curr[2] = -2.0f;
m_pos.dest[0] = 0.0f;
m_pos.dest[1] = 0.0f;
m_pos.dest[2] = -2.0f;
m_orbit[0] = 0.0f;
m_orbit[1] = 0.0f;
}
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void mtxLookAt(float* _outViewMtx)
{
bx::mtxLookAt(_outViewMtx, m_pos.curr, m_target.curr);
}
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void orbit(float _dx, float _dy)
{
m_orbit[0] += _dx;
m_orbit[1] += _dy;
}
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void dolly(float _dz)
{
const float cnear = 0.01f;
const float cfar = 10.0f;
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const float toTarget[3] =
{
m_target.dest[0] - m_pos.dest[0],
m_target.dest[1] - m_pos.dest[1],
m_target.dest[2] - m_pos.dest[2],
};
const float toTargetLen = bx::vec3Length(toTarget);
const float invToTargetLen = 1.0f/(toTargetLen+FLT_MIN);
const float toTargetNorm[3] =
{
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toTarget[0]*invToTargetLen,
toTarget[1]*invToTargetLen,
toTarget[2]*invToTargetLen,
};
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float delta = toTargetLen*_dz;
float newLen = toTargetLen + delta;
if ( (cnear < newLen || _dz < 0.0f)
&& (newLen < cfar || _dz > 0.0f) )
{
m_pos.dest[0] += toTargetNorm[0]*delta;
m_pos.dest[1] += toTargetNorm[1]*delta;
m_pos.dest[2] += toTargetNorm[2]*delta;
}
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}
void consumeOrbit(float _amount)
{
float consume[2];
consume[0] = m_orbit[0]*_amount;
consume[1] = m_orbit[1]*_amount;
m_orbit[0] -= consume[0];
m_orbit[1] -= consume[1];
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const float toPos[3] =
{
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m_pos.curr[0] - m_target.curr[0],
m_pos.curr[1] - m_target.curr[1],
m_pos.curr[2] - m_target.curr[2],
};
const float toPosLen = bx::vec3Length(toPos);
const float invToPosLen = 1.0f/(toPosLen+FLT_MIN);
const float toPosNorm[3] =
{
toPos[0]*invToPosLen,
toPos[1]*invToPosLen,
toPos[2]*invToPosLen,
};
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float ll[2];
latLongFromVec(ll[0], ll[1], toPosNorm);
ll[0] += consume[0];
ll[1] -= consume[1];
ll[1] = bx::fclamp(ll[1], 0.02f, 0.98f);
float tmp[3];
vecFromLatLong(tmp, ll[0], ll[1]);
float diff[3];
diff[0] = (tmp[0]-toPosNorm[0])*toPosLen;
diff[1] = (tmp[1]-toPosNorm[1])*toPosLen;
diff[2] = (tmp[2]-toPosNorm[2])*toPosLen;
m_pos.curr[0] += diff[0];
m_pos.curr[1] += diff[1];
m_pos.curr[2] += diff[2];
m_pos.dest[0] += diff[0];
m_pos.dest[1] += diff[1];
m_pos.dest[2] += diff[2];
}
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void update(float _dt)
{
const float amount = bx::fmin(_dt/0.12f, 1.0f);
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consumeOrbit(amount);
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m_target.curr[0] = bx::flerp(m_target.curr[0], m_target.dest[0], amount);
m_target.curr[1] = bx::flerp(m_target.curr[1], m_target.dest[1], amount);
m_target.curr[2] = bx::flerp(m_target.curr[2], m_target.dest[2], amount);
m_pos.curr[0] = bx::flerp(m_pos.curr[0], m_pos.dest[0], amount);
m_pos.curr[1] = bx::flerp(m_pos.curr[1], m_pos.dest[1], amount);
m_pos.curr[2] = bx::flerp(m_pos.curr[2], m_pos.dest[2], amount);
}
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static inline void vecFromLatLong(float _vec[3], float _u, float _v)
{
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const float phi = _u * 2.0f*bx::kPi;
const float theta = _v * bx::kPi;
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const float st = bx::fsin(theta);
const float sp = bx::fsin(phi);
const float ct = bx::fcos(theta);
const float cp = bx::fcos(phi);
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_vec[0] = -st*sp;
_vec[1] = ct;
_vec[2] = -st*cp;
}
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static inline void latLongFromVec(float& _u, float& _v, const float _vec[3])
{
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const float phi = bx::fatan2(_vec[0], _vec[2]);
const float theta = bx::facos(_vec[1]);
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_u = (bx::kPi + phi)*bx::kInvPi*0.5f;
_v = theta*bx::kInvPi;
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}
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struct Interp3f
{
float curr[3];
float dest[3];
};
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Interp3f m_target;
Interp3f m_pos;
float m_orbit[2];
};
struct Mouse
{
Mouse()
{
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m_dx = 0.0f;
m_dy = 0.0f;
m_prevMx = 0.0f;
m_prevMx = 0.0f;
m_scroll = 0;
m_scrollPrev = 0;
}
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void update(float _mx, float _my, int32_t _mz, uint32_t _width, uint32_t _height)
{
const float widthf = float(int32_t(_width));
const float heightf = float(int32_t(_height));
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// Delta movement.
m_dx = float(_mx - m_prevMx)/widthf;
m_dy = float(_my - m_prevMy)/heightf;
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m_prevMx = _mx;
m_prevMy = _my;
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// Scroll.
m_scroll = _mz - m_scrollPrev;
m_scrollPrev = _mz;
}
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float m_dx; // Screen space.
float m_dy;
float m_prevMx;
float m_prevMy;
int32_t m_scroll;
int32_t m_scrollPrev;
};
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struct MeshMtx
{
MeshMtx()
{
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m_mesh = NULL;
}
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void init(const char* _path
, float _scale = 1.0f
, float _rotX = 0.0f
, float _rotY = 0.0f
, float _rotZ = 0.0f
, float _transX = 0.0f
, float _transY = 0.0f
, float _transZ = 0.0f
)
{
m_mesh = meshLoad(_path);
bx::mtxSRT(m_mtx
, _scale
, _scale
, _scale
, _rotX
, _rotY
, _rotZ
, _transX
, _transY
, _transZ
);
}
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void destroy()
{
if (NULL != m_mesh)
{
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meshUnload(m_mesh);
}
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}
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Mesh* m_mesh;
float m_mtx[16];
};
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struct Uniforms
{
enum { NumVec4 = 3 };
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void init()
{
m_camPos[0] = 0.0f;
m_camPos[1] = 1.0f;
m_camPos[2] = -2.5f;
m_wfColor[0] = 1.0f;
m_wfColor[1] = 0.0f;
m_wfColor[2] = 0.0f;
m_wfOpacity = 0.7f;
m_drawEdges = 0.0f;
m_wfThickness = 1.5f;
u_params = bgfx::createUniform("u_params", bgfx::UniformType::Vec4, NumVec4);
}
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void submit()
{
bgfx::setUniform(u_params, m_params, NumVec4);
}
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void destroy()
{
bgfx::destroyUniform(u_params);
}
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union
{
struct
{
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/*0*/struct { float m_camPos[3], m_unused0; };
/*1*/struct { float m_wfColor[3], m_wfOpacity; };
/*2*/struct { float m_drawEdges, m_wfThickness, m_unused2[2]; };
};
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float m_params[NumVec4*4];
};
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bgfx::UniformHandle u_params;
};
class ExampleWireframe : public entry::AppI
{
void init(int _argc, char** _argv) BX_OVERRIDE
{
Args args(_argc, _argv);
m_width = 1280;
m_height = 720;
m_debug = BGFX_DEBUG_TEXT;
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m_reset = 0
| BGFX_RESET_VSYNC
| BGFX_RESET_MSAA_X16
;
bgfx::init(args.m_type, args.m_pciId);
bgfx::reset(m_width, m_height, m_reset);
// Enable m_debug text.
bgfx::setDebug(m_debug);
// Set view 0 clear state.
bgfx::setViewClear(0
, BGFX_CLEAR_COLOR|BGFX_CLEAR_DEPTH
, 0x303030ff
, 1.0f
, 0
);
m_wfProgram = loadProgram("vs_wf_wireframe", "fs_wf_wireframe");
m_meshProgram = loadProgram("vs_wf_mesh", "fs_wf_mesh");
m_uniforms.init();
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m_meshes[0].init("meshes/bunny.bin", 1.0f, 0.0f, bx::kPi, 0.0f, 0.0f, -0.8f, 0.0f);
m_meshes[1].init("meshes/hollowcube.bin", 1.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f);
m_meshes[2].init("meshes/orb.bin", 1.2f, 0.0f, 0.0f, 0.0f, 0.0f, -0.65f, 0.0f);
// Imgui.
imguiCreate();
m_oldWidth = 0;
m_oldHeight = 0;
m_oldReset = m_reset;
m_meshSelection = 1;
m_drawMode = DrawMode::WireframeShaded;
}
virtual int shutdown() BX_OVERRIDE
{
// Cleanup.
imguiDestroy();
m_meshes[0].destroy();
m_meshes[1].destroy();
m_meshes[2].destroy();
bgfx::destroyProgram(m_wfProgram);
bgfx::destroyProgram(m_meshProgram);
m_uniforms.destroy();
// Shutdown bgfx.
bgfx::shutdown();
return 0;
}
bool update() BX_OVERRIDE
{
if (!entry::processEvents(m_width, m_height, m_debug, m_reset, &m_mouseState) )
{
if (m_oldWidth != m_width
|| m_oldHeight != m_height
|| m_oldReset != m_reset)
{
// Recreate variable size render targets when resolution changes.
m_oldWidth = m_width;
m_oldHeight = m_height;
m_oldReset = m_reset;
}
imguiBeginFrame(m_mouseState.m_mx
, m_mouseState.m_my
, (m_mouseState.m_buttons[entry::MouseButton::Left ] ? IMGUI_MBUT_LEFT : 0)
| (m_mouseState.m_buttons[entry::MouseButton::Right ] ? IMGUI_MBUT_RIGHT : 0)
| (m_mouseState.m_buttons[entry::MouseButton::Middle] ? IMGUI_MBUT_MIDDLE : 0)
, m_mouseState.m_mz
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, uint16_t(m_width)
, uint16_t(m_height)
);
ImGui::SetNextWindowPos(ImVec2((float)m_width - (float)m_width / 5.0f - 10.0f, 10.0f) );
ImGui::SetNextWindowSize(ImVec2((float)m_width / 5.0f, (float)m_height * 0.75f) );
ImGui::Begin("Settings"
, NULL
, ImVec2((float)m_width / 4.0f, (float)m_height * 0.75f)
, ImGuiWindowFlags_AlwaysAutoResize
);
ImGui::Separator();
ImGui::Text("Draw mode:");
ImGui::RadioButton("Wireframe + Shaded", &m_drawMode, 0);
ImGui::RadioButton("Wireframe", &m_drawMode, 1);
ImGui::RadioButton("Shaded", &m_drawMode, 2);
const bool wfEnabled = (DrawMode::Shaded != m_drawMode);
if ( wfEnabled )
{
ImGui::Separator();
ImGui::ColorWheel("Color", m_uniforms.m_wfColor, 0.6f);
ImGui::SliderFloat("Opacity", &m_uniforms.m_wfOpacity, 0.1f, 1.0f);
ImGui::SliderFloat("Thickness", &m_uniforms.m_wfThickness, 0.6f, 2.2f);
}
ImGui::Separator();
ImGui::Text("Mesh:");
{
imguiIndent();
bool meshChanged = false;
meshChanged |= ImGui::RadioButton("Bunny", &m_meshSelection, 0);
meshChanged |= ImGui::RadioButton("Hollowcubes", &m_meshSelection, 1);
meshChanged |= ImGui::RadioButton("Orb", &m_meshSelection, 2);
if (meshChanged)
{
m_camera.reset();
}
}
ImGui::End();
imguiEndFrame();
// This dummy draw call is here to make sure that view 0 is cleared
// if no other draw calls are submitted to view 0.
bgfx::touch(0);
int64_t now = bx::getHPCounter();
static int64_t last = now;
const int64_t frameTime = now - last;
last = now;
const double freq = double(bx::getHPFrequency() );
const double toMs = 1000.0/freq;
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const float deltaTimeSec = float(double(frameTime)/freq);
// Use m_debug font to print information about this example.
bgfx::dbgTextClear();
bgfx::dbgTextPrintf(0, 1, 0x4f, "bgfx/examples/28-wirefame");
bgfx::dbgTextPrintf(0, 2, 0x6f, "Description: Drawing wireframe mesh.");
bgfx::dbgTextPrintf(0, 3, 0x0f, "Frame: % 7.3f[ms]", double(frameTime)*toMs);
// Setup view.
bgfx::setViewRect(0, 0, 0, bgfx::BackbufferRatio::Equal);
bgfx::setViewClear(0, BGFX_CLEAR_COLOR|BGFX_CLEAR_DEPTH, 0x303030ff, 1.0f, 0);
const bool mouseOverGui = imguiMouseOverArea();
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m_mouse.update(float(m_mouseState.m_mx), float(m_mouseState.m_my), m_mouseState.m_mz, m_width, m_height);
if (!mouseOverGui)
{
if (m_mouseState.m_buttons[entry::MouseButton::Left])
{
m_camera.orbit(m_mouse.m_dx, m_mouse.m_dy);
}
else if (m_mouseState.m_buttons[entry::MouseButton::Right])
{
m_camera.dolly(m_mouse.m_dx + m_mouse.m_dy);
}
else if (0 != m_mouse.m_scroll)
{
m_camera.dolly(float(m_mouse.m_scroll)*0.1f);
}
}
float view[16];
float proj[16];
m_camera.update(deltaTimeSec);
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bx::memCopy(m_uniforms.m_camPos, m_camera.m_pos.curr, 3*sizeof(float));
m_camera.mtxLookAt(view);
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bx::mtxProj(proj, 60.0f, float(m_width)/float(m_height), 0.1f, 100.0f, bgfx::getCaps()->homogeneousDepth);
bgfx::setViewTransform(0, view, proj);
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m_uniforms.m_drawEdges = (DrawMode::WireframeShaded == m_drawMode) ? 1.0f : 0.0f;
m_uniforms.submit();
if (DrawMode::Wireframe == m_drawMode)
{
uint64_t state = 0
| BGFX_STATE_RGB_WRITE
| BGFX_STATE_ALPHA_WRITE
| BGFX_STATE_DEPTH_WRITE
| BGFX_STATE_CULL_CCW
| BGFX_STATE_MSAA
| BGFX_STATE_BLEND_FUNC(BGFX_STATE_BLEND_SRC_ALPHA, BGFX_STATE_BLEND_INV_SRC_ALPHA)
;
meshSubmit(m_meshes[m_meshSelection].m_mesh, 0, m_wfProgram, m_meshes[m_meshSelection].m_mtx, state);
}
else
{
uint64_t state = 0
| BGFX_STATE_RGB_WRITE
| BGFX_STATE_ALPHA_WRITE
| BGFX_STATE_DEPTH_TEST_LESS
| BGFX_STATE_DEPTH_WRITE
| BGFX_STATE_CULL_CCW
| BGFX_STATE_MSAA
;
meshSubmit(m_meshes[m_meshSelection].m_mesh, 0, m_meshProgram, m_meshes[m_meshSelection].m_mtx, state);
}
// Advance to next frame. Rendering thread will be kicked to
// process submitted rendering primitives.
bgfx::frame();
return true;
}
return false;
}
entry::MouseState m_mouseState;
bgfx::ProgramHandle m_wfProgram;
bgfx::ProgramHandle m_meshProgram;
uint32_t m_width;
uint32_t m_height;
uint32_t m_debug;
uint32_t m_reset;
uint32_t m_oldWidth;
uint32_t m_oldHeight;
uint32_t m_oldReset;
Camera m_camera;
Mouse m_mouse;
Uniforms m_uniforms;
MeshMtx m_meshes[3];
int32_t m_meshSelection;
int32_t m_drawMode; // Holds data for 'DrawMode'.
};
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ENTRY_IMPLEMENT_MAIN(ExampleWireframe);