bgfx/examples/common/camera.cpp

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/*
* Copyright 2013 Dario Manesku. All rights reserved.
* License: http://www.opensource.org/licenses/BSD-2-Clause
*/
#include <bx/timer.h>
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#include <bx/fpumath.h>
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#include "camera.h"
#include "entry/cmd.h"
#include "entry/input.h"
int cmdMove(CmdContext* /*_context*/, void* /*_userData*/, int _argc, char const* const* _argv)
{
if (_argc > 1)
{
if (0 == strcmp(_argv[1], "forward") )
{
cameraSetKeyState(CAMERA_KEY_UP, true);
return 0;
}
else if (0 == strcmp(_argv[1], "left") )
{
cameraSetKeyState(CAMERA_KEY_LEFT, true);
return 0;
}
else if (0 == strcmp(_argv[1], "right") )
{
cameraSetKeyState(CAMERA_KEY_RIGHT, true);
return 0;
}
else if (0 == strcmp(_argv[1], "backward") )
{
cameraSetKeyState(CAMERA_KEY_DOWN, true);
return 0;
}
}
return 1;
}
static void cmd(const void* _userData)
{
cmdExec( (const char*)_userData);
}
static const InputBinding s_camBindings[] =
{
{ entry::Key::KeyW, entry::Modifier::None, 0, cmd, "move forward" },
{ entry::Key::KeyA, entry::Modifier::None, 0, cmd, "move left" },
{ entry::Key::KeyS, entry::Modifier::None, 0, cmd, "move backward" },
{ entry::Key::KeyD, entry::Modifier::None, 0, cmd, "move right" },
INPUT_BINDING_END
};
struct Camera
{
struct MouseCoords
{
int32_t m_mx;
int32_t m_my;
};
Camera()
{
reset();
update(0.0f, 0, 0, false);
cmdAdd("move", cmdMove);
inputAddBindings("camBindings", s_camBindings);
}
~Camera()
{
inputRemoveBindings("camBindings");
}
void reset()
{
m_mouseNow.m_mx = 0;
m_mouseNow.m_my = 0;
m_mouseLast.m_mx = 0;
m_mouseLast.m_my = 0;
m_eye[0] = 0.0f;
m_eye[1] = 0.0f;
m_eye[2] = -35.0f;
m_at[0] = 0.0f;
m_at[1] = 0.0f;
m_at[2] = -1.0f;
m_up[0] = 0.0f;
m_up[1] = 1.0f;
m_up[2] = 0.0f;
m_horizontalAngle = 0.01f;
m_verticalAngle = 0.0f;
m_mouseSpeed = 0.0020f;
m_moveSpeed = 30.0f;
m_keys = 0;
m_mouseDown = false;
}
void setKeyState(uint8_t _key, bool _down)
{
m_keys &= ~_key;
m_keys |= _down ? _key : 0;
}
void update(float _deltaTime, uint32_t _mx, uint32_t _my, bool _move)
{
if (!m_mouseDown)
{
m_mouseLast.m_mx = _mx;
m_mouseLast.m_my = _my;
}
m_mouseDown = _move;
if (_move)
{
m_mouseNow.m_mx = _mx;
m_mouseNow.m_my = _my;
}
if (m_mouseDown)
{
int32_t deltaX = m_mouseNow.m_mx - m_mouseLast.m_mx;
int32_t deltaY = m_mouseNow.m_my - m_mouseLast.m_my;
m_horizontalAngle += m_mouseSpeed * float(deltaX);
m_verticalAngle -= m_mouseSpeed * float(deltaY);
m_mouseLast.m_mx = m_mouseNow.m_mx;
m_mouseLast.m_my = m_mouseNow.m_my;
}
float direction[3] =
{
cosf(m_verticalAngle) * sinf(m_horizontalAngle),
sinf(m_verticalAngle),
cosf(m_verticalAngle) * cosf(m_horizontalAngle),
};
float right[3] =
{
sinf(m_horizontalAngle - float(M_PI)/2.0f),
0,
cosf(m_horizontalAngle - float(M_PI)/2.0f),
};
if (m_keys & CAMERA_KEY_UP)
{
// m_eye += direction * _deltaTime * m_moveSpeed
float tmpRhs[3];
float tmpPos[3];
memcpy(tmpPos, m_eye, sizeof(float)*3);
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bx::vec3Mul(tmpRhs, direction, _deltaTime * m_moveSpeed);
bx::vec3Add(m_eye, tmpPos, tmpRhs);
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setKeyState(CAMERA_KEY_UP, false);
}
if (m_keys & CAMERA_KEY_DOWN)
{
// m_eye -= direction * _deltaTime * m_moveSpeed
float tmpRhs[3];
float tmpPos[3];
memcpy(tmpPos, m_eye, sizeof(float)*3);
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bx::vec3Mul(tmpRhs, direction, _deltaTime * m_moveSpeed);
bx::vec3Sub(m_eye, tmpPos, tmpRhs);
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setKeyState(CAMERA_KEY_DOWN, false);
}
if (m_keys & CAMERA_KEY_LEFT)
{
// m_eye += right * _deltaTime * m_moveSpeed
float tmpRhs[3];
float tmpPos[3];
memcpy(tmpPos, m_eye, sizeof(float)*3);
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bx::vec3Mul(tmpRhs, right, _deltaTime * m_moveSpeed);
bx::vec3Add(m_eye, tmpPos, tmpRhs);
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setKeyState(CAMERA_KEY_LEFT, false);
}
if (m_keys & CAMERA_KEY_RIGHT)
{
// m_eye -= right * _deltaTime * m_moveSpeed
float tmpRhs[3];
float tmpPos[3];
memcpy(tmpPos, m_eye, sizeof(float)*3);
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bx::vec3Mul(tmpRhs, right, _deltaTime * m_moveSpeed);
bx::vec3Sub(m_eye, tmpPos, tmpRhs);
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setKeyState(CAMERA_KEY_RIGHT, false);
}
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bx::vec3Add(m_at, m_eye, direction);
bx::vec3Cross(m_up, right, direction);
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}
void getViewMtx(float* _viewMtx)
{
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bx::mtxLookAt(_viewMtx, m_eye, m_at, m_up);
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}
void setPosition(float* _pos)
{
memcpy(m_eye, _pos, sizeof(float)*3);
}
void setVerticalAngle(float _verticalAngle)
{
m_verticalAngle = _verticalAngle;
}
void setHorizontalAngle(float _horizontalAngle)
{
m_horizontalAngle = _horizontalAngle;
}
MouseCoords m_mouseNow, m_mouseLast;
float m_eye[3];
float m_at[3];
float m_up[3];
float m_horizontalAngle;
float m_verticalAngle;
float m_mouseSpeed;
float m_moveSpeed;
uint8_t m_keys;
bool m_mouseDown;
};
static Camera* s_camera = NULL;
void cameraCreate()
{
s_camera = new Camera;
}
void cameraDestroy()
{
delete s_camera;
s_camera = NULL;
}
void cameraSetPosition(float* _pos)
{
s_camera->setPosition(_pos);
}
void cameraSetHorizontalAngle(float _horizontalAngle)
{
s_camera->setHorizontalAngle(_horizontalAngle);
}
void cameraSetVerticalAngle(float _verticalAngle)
{
s_camera->setVerticalAngle(_verticalAngle);
}
void cameraSetKeyState(uint8_t _key, bool _down)
{
s_camera->setKeyState(_key, _down);
}
void cameraGetViewMtx(float* _viewMtx)
{
s_camera->getViewMtx(_viewMtx);
}
void cameraGetPosition(float* _pos)
{
memcpy(_pos, s_camera->m_eye, 3*sizeof(float));
}
void cameraGetAt(float* _at)
{
memcpy(_at, s_camera->m_at, 3*sizeof(float));
}
void cameraUpdate(float _deltaTime, uint32_t _mx, uint32_t _my, bool _move)
{
s_camera->update(_deltaTime, _mx, _my, _move);
}