//----------------------------------------------------------------//
USMatrix4x4 MOAIGfxDevice::GetWorldToWndMtx () const {
USMatrix4x4 worldToWnd = this->GetViewProjMtx ();
worldToWnd.Append ( MOAIGfxDevice::GetNormToWndMtx ());
return worldToWnd;
}
//----------------------------------------------------------------//
void USPrism::Transform ( const USMatrix4x4& mtx ) {
mtx.Transform ( mLoc );
mtx.TransformVec ( mXAxis );
mtx.TransformVec ( mYAxis );
mtx.TransformVec ( mZAxis );
}
//----------------------------------------------------------------//
void MOAIStretchPatch2D::DrawIndex ( u32 idx, float xOff, float yOff, float zOff, float xScl, float yScl, float zScl ) {
UNUSED ( xOff );
UNUSED ( yOff );
UNUSED ( zOff );
UNUSED ( xScl );
UNUSED ( yScl );
UNUSED ( zScl );
// TODO: make use of offset and scale
MOAIGfxDevice& gfxDevice = MOAIGfxDevice::Get ();
MOAIQuadBrush::BindVertexFormat ( gfxDevice );
gfxDevice.SetVertexMtxMode ( MOAIGfxDevice::VTX_STAGE_MODEL, MOAIGfxDevice::VTX_STAGE_PROJ );
gfxDevice.SetUVMtxMode ( MOAIGfxDevice::UV_STAGE_MODEL, MOAIGfxDevice::UV_STAGE_TEXTURE );
USMatrix4x4 transform = gfxDevice.GetVertexTransform ( MOAIGfxDevice::VTX_WORLD_TRANSFORM );
USVec3D stretch = transform.GetStretch ();
USMatrix4x4 noStretch;
noStretch.Scale ( 1.0f / stretch.mX, 1.0f / stretch.mY, 1.0f / stretch.mZ );
noStretch.Append ( transform );
gfxDevice.SetVertexTransform ( MOAIGfxDevice::VTX_WORLD_TRANSFORM, noStretch );
this->UpdateParams ();
this->DrawStretch ( idx, stretch.mX, stretch.mY );
gfxDevice.SetVertexTransform ( MOAIGfxDevice::VTX_WORLD_TRANSFORM, transform );
}
//----------------------------------------------------------------//
USMatrix4x4 MOAIGfxDevice::GetWndToWorldMtx () const {
USMatrix4x4 wndToWorld = MOAIGfxDevice::GetWndToNormMtx ();
// inv viewproj
USMatrix4x4 mtx = this->GetViewProjMtx ();
mtx.Inverse ();
wndToWorld.Append ( mtx );
return wndToWorld;
}
//----------------------------------------------------------------//
USRect MOAILayoutFrame::GetScissorRect () {
USRect scissorRect = this->GetFrame ();
USMatrix4x4 mtx;
mtx.Init ( this->mLocalToWorldMtx );
mtx.Append ( MOAIGfxDevice::Get ().GetWorldToWndMtx ( 1.0f, 1.0f ));
mtx.Transform ( scissorRect );
return scissorRect;
}
//----------------------------------------------------------------//
USQuad MOAIGfxDevice::GetViewQuad () const {
USQuad quad;
USMatrix4x4 invMtx;
invMtx.Inverse ( this->GetViewProjMtx ());
quad.mV [ 0 ].Init ( -1.0f, 1.0f );
quad.mV [ 1 ].Init ( 1.0f, 1.0f );
quad.mV [ 2 ].Init ( 1.0f, -1.0f );
quad.mV [ 3 ].Init ( -1.0f, -1.0f );
invMtx.TransformQuad ( quad.mV );
return quad;
}
//----------------------------------------------------------------//
void MOAIGfxDevice::BeginLayer () {
float width = ( float )this->mWidth;
float height = ( float )this->mHeight;
MOAIViewport viewport;
viewport.Init ( 0.0f, 0.0f, width, height );
viewport.SetScale ( width, -height );
viewport.SetOffset ( -1.0f, 1.0f );
this->SetViewport ( viewport );
for ( u32 i = 0; i < TOTAL_VTX_TRANSFORMS; ++i ) {
this->mVertexTransforms [ i ].Ident ();
}
this->mUVTransform.Ident ();
this->mCpuVertexTransformMtx.Ident ();
this->mVertexMtxInput = VTX_STAGE_MODEL;
this->mVertexMtxOutput = VTX_STAGE_MODEL;
USMatrix4x4 projMtx;
projMtx.Init ( viewport.GetProjMtx ());
this->mVertexTransforms [ VTX_PROJ_TRANSFORM ] = projMtx;
// fixed function reset
#if USE_OPENGLES1
if ( !this->IsProgrammable ()) {
// load identity matrix
glMatrixMode ( GL_MODELVIEW );
glLoadIdentity ();
glMatrixMode ( GL_PROJECTION );
this->GpuLoadMatrix ( projMtx );
glMatrixMode ( GL_TEXTURE );
glLoadIdentity ();
// reset the current vertex color
glColor4f ( 1.0f, 1.0f, 1.0f, 1.0f );
// reset the point size
glPointSize (( GLfloat )this->mPointSize );
}
#endif
}
//----------------------------------------------------------------//
USMatrix4x4 MOAIGfxDevice::GetWndToNormMtx () const {
USRect rect = this->mViewRect;
float hWidth = rect.Width () * 0.5f;
float hHeight = rect.Height () * 0.5f;
// Inv Wnd
USMatrix4x4 wndToNorm;
wndToNorm.Translate ( -hWidth - rect.mXMin, -hHeight - rect.mYMin, 0.0f );
USMatrix4x4 mtx;
mtx.Scale (( 1.0f / hWidth ), -( 1.0f / hHeight ), 1.0f );
wndToNorm.Append ( mtx );
return wndToNorm;
}
//----------------------------------------------------------------//
USMatrix4x4 MOAIGfxDevice::GetNormToWndMtx () const {
USRect rect = this->mViewRect;
float hWidth = rect.Width () * 0.5f;
float hHeight = rect.Height () * 0.5f;
// Wnd
USMatrix4x4 normToWnd;
normToWnd.Scale ( hWidth, -hHeight, 1.0f );
USMatrix4x4 mtx;
mtx.Translate ( hWidth + rect.mXMin, hHeight + rect.mYMin, 0.0f );
normToWnd.Append ( mtx );
return normToWnd;
}
//----------------------------------------------------------------//
USRect MOAIScissorRect::GetScissorRect ( const USMatrix4x4& worldToWndMtx ) const {
USVec3D vtx3D [ 4 ];
vtx3D [ 0 ].mX = this->mRect.mXMin;
vtx3D [ 0 ].mY = this->mRect.mYMin;
vtx3D [ 0 ].mZ = 0.0f;
vtx3D [ 1 ].mX = this->mRect.mXMin;
vtx3D [ 1 ].mY = this->mRect.mYMax;
vtx3D [ 1 ].mZ = 0.0f;
vtx3D [ 2 ].mX = this->mRect.mXMax;
vtx3D [ 2 ].mY = this->mRect.mYMax;
vtx3D [ 2 ].mZ = 0.0f;
vtx3D [ 3 ].mX = this->mRect.mXMax;
vtx3D [ 3 ].mY = this->mRect.mYMin;
vtx3D [ 3 ].mZ = 0.0f;
USMatrix4x4 mtx;
mtx.Init ( this->GetLocalToWorldMtx ());
mtx.Append ( worldToWndMtx );
mtx.Project ( vtx3D [ 0 ]);
mtx.Project ( vtx3D [ 1 ]);
mtx.Project ( vtx3D [ 2 ]);
mtx.Project ( vtx3D [ 3 ]);
USRect scissorRect;
scissorRect.Init ( vtx3D [ 0 ]);
scissorRect.Grow ( vtx3D [ 1 ]);
scissorRect.Grow ( vtx3D [ 2 ]);
scissorRect.Grow ( vtx3D [ 3 ]);
if ( this->mScissorRect ) {
USRect parentRect = this->mScissorRect->GetScissorRect ( worldToWndMtx );
parentRect.Clip ( scissorRect );
}
return scissorRect;
}
//----------------------------------------------------------------//
USMatrix4x4 MOAIGfxDevice::GetWndToWorldMtx () const {
USMatrix4x4 wndToWorld;
USMatrix4x4 mtx;
USRect rect = this->GetViewRect ();
float hWidth = rect.Width () * 0.5f;
float hHeight = rect.Height () * 0.5f;
// Inv Wnd
wndToWorld.Translate ( -hWidth - rect.mXMin, -hHeight - rect.mYMin, 0.0f );
mtx.Scale (( 1.0f / hWidth ), -( 1.0f / hHeight ), 1.0f );
wndToWorld.Append ( mtx );
// inv viewproj
mtx = this->GetViewProjMtx ();
mtx.Inverse ();
wndToWorld.Append ( mtx );
return wndToWorld;
}
//----------------------------------------------------------------//
USMatrix4x4 MOAIGfxDevice::GetWorldToWndMtx ( float xScale, float yScale ) const {
USMatrix4x4 worldToWnd;
USMatrix4x4 mtx;
USRect rect = this->GetViewRect ();
float hWidth = rect.Width () * 0.5f;
float hHeight = rect.Height () * 0.5f;
// viewproj
worldToWnd = this->GetViewProjMtx ();
// wnd
mtx.Scale ( hWidth * xScale, hHeight * yScale, 1.0f );
worldToWnd.Append ( mtx );
mtx.Translate ( hWidth + rect.mXMin, hHeight + rect.mYMin, 0.0f );
worldToWnd.Append ( mtx );
return worldToWnd;
}
//----------------------------------------------------------------//
void MOAIDraw::DrawRay ( float x, float y, float dx, float dy ) {
USVec2D loc ( x, y );
USVec2D vec ( dx, dy );
USMatrix4x4 mtx = MOAIGfxDevice::Get ().GetViewProjMtx ();
USMatrix4x4 invMtx;
invMtx.Inverse ( mtx );
mtx.Transform ( loc );
mtx.TransformVec ( vec );
USRect viewRect;
viewRect.Init ( -1.0f, -1.0f, 1.0f, 1.0f );
USVec2D p0;
USVec2D p1;
if ( viewRect.GetIntersection ( loc, vec, p0, p1 )) {
invMtx.Transform ( p0 );
invMtx.Transform ( p1 );
MOAIGfxDevice& gfxDevice = MOAIGfxDevice::Get ();
gfxDevice.BeginPrim ( GL_LINES );
gfxDevice.WriteVtx ( p0.mX, p0.mY, 0.0f );
gfxDevice.WriteFinalColor4b ();
gfxDevice.WriteVtx ( p1.mX, p1.mY, 0.0f );
gfxDevice.WriteFinalColor4b ();
gfxDevice.EndPrim ();
}
}
//----------------------------------------------------------------//
void MOAIDraw::DrawAxisGrid ( USVec2D loc, USVec2D vec, float size ) {
USMatrix4x4 mtx = MOAIGfxDevice::Get ().GetViewProjMtx ();
USMatrix4x4 invMtx;
invMtx.Inverse ( mtx );
// Set the axis to the grid length so we can get the length back post-transform
vec.SetLength ( size );
mtx.Transform ( loc );
mtx.TransformVec ( vec );
// Get the axis unit vector
USVec2D norm = vec;
size = norm.NormSafe ();
// Get the axis normal
USVec2D perpNorm ( norm.mY, -norm.mX );
// Project the corners of the viewport onto the axis to get the mix/max bounds
float dot;
float min;
float max;
USVec2D corner;
// left, top
corner.Init ( -1.0f, 1.0f );
corner.Sub ( loc );
dot = norm.Dot ( corner );
min = dot;
max = dot;
// right, top
corner.Init ( 1.0f, 1.0f );
corner.Sub ( loc );
dot = norm.Dot ( corner );
min = ( dot < min ) ? dot : min;
max = ( dot > max ) ? dot : max;
// right, bottom
corner.Init ( 1.0f, -1.0f );
corner.Sub ( loc );
dot = norm.Dot ( corner );
min = ( dot < min ) ? dot : min;
max = ( dot > max ) ? dot : max;
// left, bottom
corner.Init ( -1.0f, -1.0f );
corner.Sub ( loc );
dot = norm.Dot ( corner );
min = ( dot < min ) ? dot : min;
max = ( dot > max ) ? dot : max;
// Get the start andstop grids
s32 start = ( s32 )( min / size ) - 1;
s32 stop = ( s32 )( max / size ) + 1;
// Set the pen to the first...
USVec2D pen = norm;
pen.Scale (( float )start * size );
pen.Add ( loc );
// Step along the axis to draw perpendicular grid lines
USRect viewRect;
viewRect.Init ( -1.0f, -1.0f, 1.0f, 1.0f );
for ( ; start < stop; ++start ) {
USVec2D p0;
USVec2D p1;
if ( viewRect.GetIntersection ( pen, perpNorm, p0, p1 )) {
invMtx.Transform ( p0 );
invMtx.Transform ( p1 );
MOAIDraw::DrawLine ( p0, p1 );
}
pen.Add ( vec );
}
}
//----------------------------------------------------------------//
USMatrix4x4 MOAIGfxDevice::GetViewProjMtx () const {
USMatrix4x4 mtx = this->mVertexTransforms [ VTX_VIEW_TRANSFORM ];
mtx.Append ( this->mVertexTransforms [ VTX_PROJ_TRANSFORM ]);
return mtx;
}
//----------------------------------------------------------------//
void MOAIGfxDevice::UpdateViewVolume () {
USMatrix4x4 invViewProj;
invViewProj.Inverse ( this->GetViewProjMtx ());
this->mViewVolume.Init ( invViewProj );
}
//----------------------------------------------------------------//
void MOAIGfxDevice::SetVertexTransform ( u32 id, const USAffine3D& transform ) {
USMatrix4x4 mtx;
mtx.Init ( transform );
this->SetVertexTransform ( id, mtx );
}
//----------------------------------------------------------------//
void MOAIGfxDevice::SetVertexTransform ( u32 id ) {
USMatrix4x4 mtx;
mtx.Ident ();
this->SetVertexTransform ( id, mtx );
}
//----------------------------------------------------------------//
void MOAIGfxDevice::SetUVTransform ( const USAffine3D& transform ) {
USMatrix4x4 mtx;
mtx.Init ( transform );
this->SetUVTransform ( mtx );
}
//----------------------------------------------------------------//
void MOAIGfxDevice::SetUVTransform () {
USMatrix4x4 mtx;
mtx.Ident ();
this->SetUVTransform ( mtx );
}
//----------------------------------------------------------------//
void USFrustum::Init ( const USMatrix4x4& mtx ) {
// set up the homogenous coordinates of the canonical view volume
USVec3D nlt ( -1.0f, 1.0f, -1.0f );
USVec3D nrt ( 1.0f, 1.0f, -1.0f );
USVec3D nrb ( 1.0f, -1.0f, -1.0f );
USVec3D nlb ( -1.0f, -1.0f, -1.0f );
USVec3D flt ( -1.0f, 1.0f, 1.0f );
USVec3D frt ( 1.0f, 1.0f, 1.0f );
USVec3D frb ( 1.0f, -1.0f, 1.0f );
USVec3D flb ( -1.0f, -1.0f, 1.0f );
// compute the corners of the frustum
mtx.Project ( nlt );
mtx.Project ( nrt );
mtx.Project ( nrb );
mtx.Project ( nlb );
mtx.Project ( flt );
mtx.Project ( frt );
mtx.Project ( frb );
mtx.Project ( flb );
this->mPoints [ NEAR_LT_POINT ].Init ( nlt.mX, nlt.mY, nlt.mZ );
this->mPoints [ NEAR_RT_POINT ].Init ( nrt.mX, nrt.mY, nrt.mZ );
this->mPoints [ NEAR_RB_POINT ].Init ( nrb.mX, nrb.mY, nrb.mZ );
this->mPoints [ NEAR_LB_POINT ].Init ( nlb.mX, nlb.mY, nlb.mZ );
this->mPoints [ FAR_LT_POINT ].Init ( flt.mX, flt.mY, flt.mZ );
this->mPoints [ FAR_RT_POINT ].Init ( frt.mX, frt.mY, frt.mZ );
this->mPoints [ FAR_RB_POINT ].Init ( frb.mX, frb.mY, frb.mZ );
this->mPoints [ FAR_LB_POINT ].Init ( flb.mX, flb.mY, flb.mZ );
// Compute the frustum's axis-aligned bounding box
this->mAABB.Init ( nlt );
this->mAABB.Grow ( nrt );
this->mAABB.Grow ( nrb );
this->mAABB.Grow ( nlb );
this->mAABB.Grow ( flt );
this->mAABB.Grow ( frt );
this->mAABB.Grow ( frb );
this->mAABB.Grow ( flb );
// intialize the planes
this->mPlanes [ LEFT_PLANE ].Init ( nlt, flt, flb );
this->mPlanes [ RIGHT_PLANE ].Init ( nrb, frb, frt );
this->mPlanes [ TOP_PLANE ].Init ( nrt, frt, flt );
this->mPlanes [ BOTTOM_PLANE ].Init ( nlb, flb, frb );
this->mPlanes [ NEAR_PLANE ].Init ( nrt, nlt, nlb );
this->mPlanes [ FAR_PLANE ].Init ( flt, frt, frb );
USVec3D center;
mtx.GetTranslation ( center );
for ( u32 i = 0; i < TOTAL_PLANES; ++i ) {
if ( USDist::VecToPlane ( center, this->mPlanes [ i ]) > 0.0f ) {
this->mPlanes [ i ].Flip ();
}
}
double frustArea = _frustArea ( *this );
double boxArea = this->mAABB.Area ();
this->mUsePlanes = (( float )( frustArea / boxArea )) < MIN_FILL_RATIO;
}
//----------------------------------------------------------------//
USMatrix4x4 MOAIGfxDevice::GetModelToWndMtx () const {
USMatrix4x4 modelToWnd = this->GetModelToWorldMtx ();
modelToWnd.Append ( this->GetWorldToWndMtx ());
return modelToWnd;
}
//----------------------------------------------------------------//
USMatrix4x4 MOAIGfxDevice::GetWndToModelMtx () const {
USMatrix4x4 wndToModel;
wndToModel.Inverse ( this->GetModelToWndMtx ());
return wndToModel;
}
//----------------------------------------------------------------//
USMatrix4x4 MOAIGfxDevice::GetWorldToModelMtx () const {
USMatrix4x4 worldToModel;
worldToModel.Inverse ( this->mVertexTransforms [ VTX_WORLD_TRANSFORM ]);
return worldToModel;
}
