Source code of Windows XP (NT5)
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/*============================================================================
*
* Copyright (C) 1999-2000 Microsoft Corporation. All Rights Reserved.
*
* File: catrom.cpp
* Content: Implementation for Catmull-Rom splines
*
****************************************************************************/
#include "pch.cpp"
#pragma hdrstop
//-----------------------------------------------------------------------------
// RefDev::ProcessCatRomSpline
//-----------------------------------------------------------------------------
HRESULT RefDev::ProcessCatRomSpline( DWORD dwOffW, DWORD dwOffH,
DWORD dwWidth, DWORD dwHeight,
DWORD dwStride,
FLOAT *pPrimSegments )
{
int u_range = dwWidth - 3;
int v_range = dwHeight - 3;
if(u_range <= 0 || v_range <= 0)
{
DPFERR("A Catmull-Rom spline needs at least 16 control points");
return DDERR_INVALIDPARAMS;
}
RDCatRomSpline catrom;
unsigned M[4], N[4];
unsigned u_segs, v_segs, u_start, v_start;
if(pPrimSegments != 0)
{
u_segs = unsigned(double(unsigned(pPrimSegments[0]) + unsigned(pPrimSegments[2])) / 2.0 + 0.5);
v_segs = unsigned(double(unsigned(pPrimSegments[1]) + unsigned(pPrimSegments[3])) / 2.0 + 0.5);
if(u_segs == 0)
{
u_segs = 1;
}
if(v_segs == 0)
{
v_segs = 1;
}
if(unsigned(pPrimSegments[0]) != unsigned(pPrimSegments[2]) || unsigned(pPrimSegments[1]) != unsigned(pPrimSegments[3]))
{
// First, gulp, the irregular outside
// To make life easier, we don't want to deal with the case when u_segs or v_segs is one
// This ensures that there is at least one inside point
if(u_segs == 1)
{
u_segs = 2;
}
if(v_segs == 1)
{
v_segs = 2;
}
// Start with top edge
unsigned segs = unsigned(pPrimSegments[0]);
unsigned k_outer = 0;
unsigned k_inner = 1;
unsigned outer_inc = u_segs - 2;
unsigned inner_inc = segs;
unsigned outer = 0;
unsigned inner = 0;
double u0, v0, u1, v1, u2, v2, tu0, tv0, tu1, tv1, tu2, tv2;
while(outer_inc != 0 ? (inner != inner_inc * outer_inc || outer != inner_inc * outer_inc) : (k_outer < segs))
{
if(inner < outer)
{
_ASSERT(k_inner < u_segs - 1, "Error in logic");
u0 = double(u_range * k_inner) / double(u_segs) + 3.0;
v0 = double(v_range) / double(v_segs) + 3.0;
u1 = double(u_range * k_outer) / double(segs) + 3.0;
v1 = 0.0;
u2 = double(u_range * (k_inner + 1)) / double(u_segs) + 3.0;
v2 = v0;
tu0 = double(k_inner) / double(u_segs);
tv0 = 1.0 / double(v_segs);
tu1 = double(k_outer) / double(segs);
tv1 = 0.0;
tu2 = double(k_inner + 1) / double(u_segs);
tv2 = tv0;
M[0] = unsigned(u0) - 3; // unsigned(u0) == floor(u0)
u0 -= floor(u0);
if((u_range * k_outer) % segs == 0)
{
M[1] = unsigned(u1) - 4;
u1 = 1.0;
}
else
{
M[1] = unsigned(u1) - 3; // unsigned(u1) == floor(u1)
u1 -= floor(u1);
}
M[2] = unsigned(u2) - 3; // unsigned(u2) == floor(u2)
u2 -= floor(u2);
N[2] = N[0] = unsigned(v0) - 3; // unsigned(v0) == floor(v0)
v2 = v0 = v0 - floor(v0);
N[1] = 0;
++k_inner;
inner += inner_inc;
}
else
{
_ASSERT(k_outer < segs, "Error in logic");
u0 = double(u_range * k_inner) / double(u_segs) + 3.0;
v0 = double(v_range) / double(v_segs) + 3.0;
u1 = double(u_range * k_outer) / double(segs) + 3.0;
v1 = 0.0;
u2 = double(u_range * (k_outer + 1)) / double(segs) + 3.0;
v2 = v1;
tu0 = double(k_inner) / double(u_segs);
tv0 = 1.0 / double(v_segs);
tu1 = double(k_outer) / double(segs);
tv1 = 0.0;
tu2 = double(k_outer + 1) / double(segs);
tv2 = tv1;
if((u_range * k_inner) % u_segs == 0)
{
M[0] = unsigned(u0) - 4;
u0 = 1.0;
}
else
{
M[0] = unsigned(u0) - 3; // unsigned(u0) == floor(u0)
u0 -= floor(u0);
}
M[1] = unsigned(u1) - 3; // unsigned(u1) == floor(u1)
u1 -= floor(u1);
if((u_range * (k_outer + 1)) % segs == 0)
{
M[2] = unsigned(u2) - 4;
u2 = 1.0;
}
else
{
M[2] = unsigned(u2) - 3; // unsigned(u2) == floor(u2)
u2 -= floor(u2);
}
N[0] = unsigned(v0) - 3; // unsigned(v0) == floor(v0)
v0 -= floor(v0);
N[2] = N[1] = 0;
++k_outer;
outer += outer_inc;
}
HRESULT hr = DrawTessTri(catrom, dwOffW, dwOffH, dwStride, M, N, u0, v0, u1, v1, u2, v2, tu0, tv0, tu1, tv1, tu2, tv2, false, false, false);
if(FAILED(hr))
{
return hr;
}
}
// bottom edge
segs = unsigned(pPrimSegments[2]);
k_outer = segs;
k_inner = u_segs - 1;
inner_inc = segs;
outer = 0;
inner = 0;
while(outer_inc != 0 ? (inner != inner_inc * outer_inc || outer != inner_inc * outer_inc) : (k_outer > 0))
{
if(inner < outer)
{
_ASSERT(k_inner > 1, "Error in logic");
u0 = double(u_range * k_inner) / double(u_segs) + 3.0;
v0 = double(v_range * (v_segs - 1)) / double(v_segs) + 3.0;
u1 = double(u_range * k_outer) / double(segs) + 3.0;
v1 = double(v_range + 3);
u2 = double(u_range * (k_inner - 1)) / double(u_segs) + 3.0;
v2 = v0;
tu0 = double(k_inner) / double(u_segs);
tv0 = double(v_segs - 1) / double(v_segs);
tu1 = double(k_outer) / double(segs);
tv1 = 1.0;
tu2 = double(k_inner - 1) / double(u_segs);
tv2 = tv0;
M[0] = unsigned(u0) - 3; // unsigned(u0) == floor(u0)
u0 -= floor(u0);
if((u_range * k_outer) % segs == 0)
{
M[1] = unsigned(u1) - 4;
u1 = 1.0;
}
else
{
M[1] = unsigned(u1) - 3; // unsigned(u1) == floor(u1)
u1 -= floor(u1);
}
M[2] = unsigned(u2) - 3; // unsigned(u2) == floor(u2)
u2 -= floor(u2);
N[2] = N[0] = unsigned(v0) - 3; // unsigned(v0) == floor(v0)
v2 = v0 = v0 - floor(v0);
N[1] = dwHeight - 4;
v1 = 1.0;
--k_inner;
inner += inner_inc;
}
else
{
_ASSERT(k_outer > 0, "Error in logic");
u0 = double(u_range * k_inner) / double(u_segs) + 3.0;
v0 = double(v_range * (v_segs - 1)) / double(v_segs) + 3.0;
u1 = double(u_range * k_outer) / double(segs) + 3.0;
v1 = double(v_range + 3);
u2 = double(u_range * (k_outer - 1)) / double(segs) + 3.0;
v2 = v1;
tu0 = double(k_inner) / double(u_segs);
tv0 = double(v_segs - 1) / double(v_segs);
tu1 = double(k_outer) / double(segs);
tv1 = 1.0;
tu2 = double(k_outer - 1) / double(segs);
tv2 = tv1;
M[0] = unsigned(u0) - 3; // unsigned(u0) == floor(u0)
u0 -= floor(u0);
if((u_range * k_outer) % segs == 0)
{
M[1] = unsigned(u1) - 4;
u1 = 1.0;
}
else
{
M[1] = unsigned(u1) - 3; // unsigned(u1) == floor(u1)
u1 -= floor(u1);
}
M[2] = unsigned(u2) - 3; // unsigned(u2) == floor(u2)
u2 -= floor(u2);
N[0] = unsigned(v0) - 3; // unsigned(v0) == floor(v0)
v0 -= floor(v0);
N[2] = N[1] = dwHeight - 4;
v2 = v1 = 1.0;
--k_outer;
outer += outer_inc;
}
HRESULT hr = DrawTessTri(catrom, dwOffW, dwOffH, dwStride, M, N, u0, v0, u1, v1, u2, v2, tu0, tv0, tu1, tv1, tu2, tv2, false, false, false);
if(FAILED(hr))
{
return hr;
}
}
// right edge
segs = unsigned(pPrimSegments[1]);
k_outer = 0;
k_inner = 1;
outer_inc = v_segs - 2;
inner_inc = segs;
outer = 0;
inner = 0;
while(outer_inc != 0 ? (inner != inner_inc * outer_inc || outer != inner_inc * outer_inc) : (k_outer < segs))
{
if(inner < outer)
{
_ASSERT(k_inner < v_segs - 1, "Error in logic");
u0 = double(u_range * (u_segs - 1)) / double(u_segs) + 3.0;
v0 = double(v_range * k_inner) / double(v_segs) + 3.0;
u1 = double(u_range + 3);
v1 = double(v_range * k_outer) / double(segs) + 3.0;
u2 = u0;
v2 = double(v_range * (k_inner + 1)) / double(v_segs) + 3.0;
tu0 = double(u_segs - 1) / double(u_segs);
tv0 = double(k_inner) / double(v_segs);
tu1 = 1.0;
tv1 = double(k_outer) / double(segs);
tu2 = tu0;
tv2 = double(k_inner + 1) / double(v_segs);
M[2] = M[0] = unsigned(u0) - 3; // unsigned(u0) == floor(u0)
u2 = u0 = u0 - floor(u0);
M[1] = dwWidth - 4;
u1 = 1.0;
N[0] = unsigned(v0) - 3; // unsigned(v0) == floor(v0)
v0 -= floor(v0);
if((v_range * k_outer) % segs == 0)
{
N[1] = unsigned(v1) - 4;
v1 = 1.0;
}
else
{
N[1] = unsigned(v1) - 3; // unsigned(v1) == floor(v1)
v1 -= floor(v1);
}
N[2] = unsigned(v2) - 3; // unsigned(v2) == floor(v2)
v2 -= floor(v2);
++k_inner;
inner += inner_inc;
}
else
{
_ASSERT(k_outer < segs, "Error in logic");
u0 = double(u_range * (u_segs - 1)) / double(u_segs) + 3.0;
v0 = double(v_range * k_inner) / double(v_segs) + 3.0;
u1 = double(u_range + 3);
v1 = double(v_range * k_outer) / double(segs) + 3.0;
u2 = u1;
v2 = double(v_range * (k_outer + 1)) / double(segs) + 3.0;
tu0 = double(u_segs - 1) / double(u_segs);
tv0 = double(k_inner) / double(v_segs);
tu1 = 1.0;
tv1 = double(k_outer) / double(segs);
tu2 = tu1;
tv2 = double(k_outer + 1) / double(segs);
M[0] = unsigned(u0) - 3; // unsigned(u0) == floor(u0)
u0 -= floor(u0);
M[2] = M[1] = dwWidth - 4;
u2 = u1 = 1.0;
if((v_range * k_inner) % v_segs == 0)
{
N[0] = unsigned(v0) - 4;
v0 = 1.0;
}
else
{
N[0] = unsigned(v0) - 3; // unsigned(v0) == floor(v0)
v0 -= floor(v0);
}
N[1] = unsigned(v1) - 3; // unsigned(v1) == floor(v1)
v1 -= floor(v1);
if((v_range * (k_outer + 1)) % segs == 0)
{
N[2] = unsigned(v2) - 4;
v2 = 1.0;
}
else
{
N[2] = unsigned(v2) - 3; // unsigned(v2) == floor(v2)
v2 -= floor(v2);
}
++k_outer;
outer += outer_inc;
}
HRESULT hr = DrawTessTri(catrom, dwOffW, dwOffH, dwStride, M, N, u0, v0, u1, v1, u2, v2, tu0, tv0, tu1, tv1, tu2, tv2, false, false, false);
if(FAILED(hr))
{
return hr;
}
}
// left edge
segs = unsigned(pPrimSegments[3]);
k_outer = segs;
k_inner = v_segs - 1;
inner_inc = segs;
outer = 0;
inner = 0;
while(outer_inc != 0 ? (inner != inner_inc * outer_inc || outer != inner_inc * outer_inc) : (k_outer > 0))
{
if(inner < outer)
{
_ASSERT(k_inner > 1, "Error in logic");
u0 = double(u_range) / double(u_segs) + 3.0;
v0 = double(v_range * k_inner) / double(v_segs) + 3.0;
u1 = 0.0;
v1 = double(v_range * k_outer) / double(segs) + 3.0;
u2 = u0;
v2 = double(v_range * (k_inner - 1)) / double(v_segs) + 3.0;
tu0 = 1.0 / double(u_segs);
tv0 = double(k_inner) / double(v_segs);
tu1 = 0.0;
tv1 = double(k_outer) / double(segs);
tu2 = tu0;
tv2 = double(k_inner - 1) / double(v_segs);
M[2] = M[0] = unsigned(u0) - 3; // unsigned(u0) == floor(u0)
u2 = u0 = u0 - floor(u0);
M[1] = 0;
N[0] = unsigned(v0) - 3; // unsigned(v0) == floor(v0)
v0 -= floor(v0);
if((v_range * k_outer) % segs == 0)
{
N[1] = unsigned(v1) - 4;
v1 = 1.0;
}
else
{
N[1] = unsigned(v1) - 3; // unsigned(v1) == floor(v1)
v1 -= floor(v1);
}
N[2] = unsigned(v2) - 3; // unsigned(v2) == floor(v2)
v2 -= floor(v2);
--k_inner;
inner += inner_inc;
}
else
{
_ASSERT(k_outer > 0, "Error in logic");
u0 = double(u_range) / double(u_segs) + 3.0;
v0 = double(v_range * k_inner) / double(v_segs) + 3.0;
u1 = 0.0;
v1 = double(v_range * k_outer) / double(segs) + 3.0;
u2 = u1;
v2 = double(v_range * (k_outer - 1)) / double(segs) + 3.0;
tu0 = 1.0 / double(u_segs);
tv0 = double(k_inner) / double(v_segs);
tu1 = 0.0;
tv1 = double(k_outer) / double(segs);
tu2 = tu1;
tv2 = double(k_outer - 1) / double(segs);
M[0] = unsigned(u0) - 3; // unsigned(u0) == floor(u0)
u0 -= floor(u0);
M[2] = M[1] = 0;
N[0] = unsigned(v0) - 3; // unsigned(v0) == floor(v0)
v0 -= floor(v0);
if((v_range * k_outer) % segs == 0)
{
N[1] = unsigned(v1) - 4;
v1 = 1.0;
}
else
{
N[1] = unsigned(v1) - 3; // unsigned(v1) == floor(v1)
v1 -= floor(v1);
}
N[2] = unsigned(v2) - 3; // unsigned(v2) == floor(v2)
v2 -= floor(v2);
--k_outer;
outer += outer_inc;
}
HRESULT hr = DrawTessTri(catrom, dwOffW, dwOffH, dwStride, M, N, u0, v0, u1, v1, u2, v2, tu0, tv0, tu1, tv1, tu2, tv2, false, false, false);
if(FAILED(hr))
{
return hr;
}
}
// Now do the regular interior
u_start = 1;
v_start = 1;
}
else
{
// It can be done regularly
u_start = 0;
v_start = 0;
}
}
else
{
unsigned segs = unsigned(GetRSf()[D3DRS_PATCHSEGMENTS]);
if(segs == 0)
{
segs = 1;
}
u_start = 0;
v_start = 0;
u_segs = segs;
v_segs = segs;
}
for(unsigned i = v_start; i < v_segs - v_start; ++i)
{
double v0 = double(v_range * i) / double(v_segs) + 3.0;
double v1 = double(v_range * (i + 1)) / double(v_segs) + 3.0;
N[1] = N[0] = unsigned(v0) - 3; // unsigned(v0) == floor(v0)
if((v_range * (i + 1)) % v_segs == 0)
{
N[3] = N[2] = unsigned(v1) - 4;
v1 = 1.0;
}
else
{
N[3] = N[2] = unsigned(v1) - 3; // unsigned(v1) == floor(v1)
v1 -= floor(v1);
}
for(unsigned j = u_start; j < u_segs - u_start; ++j)
{
double u0 = (u_range * double(j)) / double(u_segs) + 3.0;
double u1 = (u_range * double(j + 1)) / double(u_segs) + 3.0;
M[3] = M[0] = unsigned(u0) - 3; // unsigned(u0) == floor(u0)
if((u_range * (j + 1)) % u_segs == 0)
{
M[2] = M[1] = unsigned(u1) - 4;
u1 = 1.0;
}
else
{
M[2] = M[1] = unsigned(u1) - 3; // unsigned(u1) == floor(u1)
u1 -= floor(u1);
}
HRESULT hr = DrawTessQuad(catrom, dwOffW, dwOffH, dwStride, M, N,
u0 - floor(u0), v0 - floor(v0), u1, v1,
double(j) / double(u_segs), double(i) / double(v_segs),
double(j + 1) / double(u_segs), double(i + 1) / double(v_segs),
false);
if(FAILED(hr))
{
return hr;
}
}
}
return S_OK;
}
//-----------------------------------------------------------------------------
// RDCatRomSpline::Basis
//-----------------------------------------------------------------------------
double RDCatRomSpline::Basis(unsigned i, unsigned k, double t) const
{
static const double lut[4][4] = {{-1.0/2.0, 3.0/2.0, -3.0/2.0, 1.0/2.0},
{1.0, -5.0/2.0, 2.0, -1.0/2.0},
{-1.0/2.0, 0.0, 1.0/2.0, 0.0},
{0.0, 1.0, 0.0, 0.0}};
_ASSERT(i < 4, "Catmull-Rom spline can be only cubic");
return t * t * t * lut[0][i] + t * t * lut[1][i] + t * lut[2][i] + lut[3][i];
}
//-----------------------------------------------------------------------------
// RDCatRomSpline::BasisPrime
//-----------------------------------------------------------------------------
double RDCatRomSpline::BasisPrime(unsigned i, unsigned k, double t) const
{
static const double lut[3][4] = {{-3.0/2.0, 9.0/2.0, -9.0/2.0, 3.0/2.0},
{2.0, -5.0, 4.0, -1.0},
{-1.0/2.0, 0.0, 1.0/2.0, 0.0}};
_ASSERT(i < 4, "Catmull-Rom spline can be only cubic");
return t * t * lut[0][i] + t * lut[1][i] + lut[2][i];
}