windows-nt/Source/XPSP1/NT/multimedia/dshow/vidctl/msvidctl/surface.h

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2020-09-26 03:20:57 -05:00
/////////////////////////////////////////////////////////////////////////////
// surface.h : surface management utility classes for vidctl
// Copyright (c) Microsoft Corporation 2000.
#pragma once
#ifndef SURFACE_H
#define SURFACE_H
#include <scalingrect.h>
typedef CComPtr<IOleInPlaceFrame> PQFrame;
typedef CComPtr<IOleInPlaceUIWindow> PQUIWin;
class AspectRatio : public CSize {
public:
AspectRatio(ULONG xi = 0, ULONG yi = 0) : CSize(xi, yi) {
Normalize();
}
AspectRatio(const AspectRatio& ar) : CSize(ar.cx, ar.cy) {}
AspectRatio(const CRect& ri) : CSize(abs(ri.Width()), abs(ri.Height())) {
Normalize();
}
AspectRatio(LPCRECT ri) : CSize(abs(ri->left - ri->right),
abs(ri->top - ri->bottom)) {
Normalize();
}
void Normalize() {
ULONG d = GCD(abs(cx), abs(cy));
if (!d) return;
cx /= d;
cy /= d;
}
// from knuth semi-numerical algorithms p. 321(sort of).
// since >> on signed isn't guaranteed to be arithmetic in C/C++ we've made some modifications
ULONG GCD(ULONG a, ULONG b) const {
ULONG k = 0;
if (!a) return b; // by defn
if (!b) return a;
while ((!(a & 1)) && (!( b & 1))) {
_ASSERT((a > 1) && (b > 1)); // since a,b != 0 and even then they must be > 1
// if a and b are even then gcd(a,b) == 2 * gcd(a/2,b/2), so factor out all the 2s
++k;
a >>= 1;
b >>= 1;
}
do {
_ASSERT(a && b); // neither can be zero otherwise we'd have returned from the top(1st time)
// or fallen out earlier(subsequent iterations)
_ASSERT((a & 1) || (b & 1)); // at this point either a or b (or both) is odd
if (!(a & 1) || !(b & 1)) { // if one of them is even then factor out the 2s
// since if x is even then gcd(x,y) == gcx(x/2,y)
ULONG t = (a & 1) ? b : a;
do {
_ASSERT(t && (t > 1) && !(t & 1)); // t is even and non-zero(implying t > 1)
t >>= 1;
} while (!(t & 1));
_ASSERT(t && (t & 1)); // t is odd and > 0
// put t back where we got it from
if (a & 1) {
b = t;
} else {
a = t;
}
_ASSERT((a & 1) && (b & 1)); // they're both odd now
}
// replace larger with difference
// gcd(x, y) == gcd(y, x)
// gcd(x,y) == gcd(x - y, y)
if (a > b) {
a = a - b;
} else {
b = b - a;
}
_ASSERT(a | b); // they can't both be 0 or we'd have been done last time through
} while (a && b); // if one of the values is 0 then we're done gcd(x,0) == x
return (a > b ? a : b) << k;
}
AspectRatio& operator=(const AspectRatio& rhs) {
if (&rhs != this) {
cx = rhs.cx;
cy = rhs.cy;
}
Normalize();
return *this;
}
AspectRatio& operator=(const CRect& rhs) {
cx = abs(rhs.Width());
cy = abs(rhs.Height());
Normalize();
return *this;
}
AspectRatio& operator=(const CSize& rhs) {
if (&rhs != this) {
cx = rhs.cx;
cy = rhs.cy;
}
Normalize();
return *this;
}
AspectRatio& operator=(const LPSIZE rhs) {
if (rhs != this) {
cx = rhs->cx;
cy = rhs->cy;
}
Normalize();
return *this;
}
AspectRatio& operator=(LPCRECT rhs) {
cx = abs(rhs->left - rhs->right);
cy = abs(rhs->top - rhs->bottom);
Normalize();
return *this;
}
bool operator==(const AspectRatio& rhs) const {
return cx == rhs.cx && cy == rhs.cy;
}
bool operator==(const CSize& rhs) const {
return cx == rhs.cx && cy == rhs.cy;
}
bool operator!=(const AspectRatio& rhs) const {
return !operator==(rhs);
}
bool operator!() {
return !cx && !cy;
}
ULONG X() const { return cx; }
ULONG Y() const { return cy; }
ULONG X(ULONG xi) {
cx = xi;
Normalize();
return cx;
}
ULONG Y(ULONG yi) {
cy = yi;
Normalize();
return cy;
}
void XY(ULONG xi, ULONG yi) {
cx = xi;
cy = yi;
Normalize();
}
};
class SurfaceState : public CScalingRect {
public:
const static int MIN_RECT_WIDTH = 4;
const static int MIN_RECT_HEIGHT = 3;
SurfaceState(const long l = 0,
const long t = 0,
const long r = 0,
const long b = 0,
const HWND iOwner = INVALID_HWND,
const bool iVis = false,
const bool iAspect = true,
const bool iSource = false) :
CScalingRect(l, t, r, b, iOwner),
m_fVisible(iVis),
m_fForceAspectRatio(iAspect),
m_fForceSourceSize(iSource) {}
SurfaceState(const CRect& iPos,
const HWND iOwner = INVALID_HWND,
const bool iVis = false,
const bool iAspect = true,
const bool iSource = false) :
CScalingRect(iPos, iOwner),
m_fVisible(iVis),
m_fForceAspectRatio(iAspect),
m_fForceSourceSize(iSource) {}
SurfaceState(const CScalingRect& iPos,
const bool iVis = false,
const bool iAspect = true,
const bool iSource = false) :
CScalingRect(iPos),
m_fVisible(iVis),
m_fForceAspectRatio(iAspect),
m_fForceSourceSize(iSource) {}
SurfaceState(const HWND iOwner,
const bool iVis = false,
const bool iAspect = true,
const bool iSource = false) :
CScalingRect(iOwner),
m_fVisible(iVis),
m_fForceAspectRatio(iAspect),
m_fForceSourceSize(iSource) {}
SurfaceState(const PQSiteWindowless& pSite,
const bool iVis = false,
const bool iAspect = true,
const bool iSource = false) :
m_fVisible(iVis),
m_fForceAspectRatio(iAspect),
m_fForceSourceSize(iSource) {
Site(pSite);
}
SurfaceState(const WINDOWPOS *const wp,
const bool iAspect = true,
const bool iSource = false) :
m_fForceAspectRatio(iAspect),
m_fForceSourceSize(iSource) {
ASSERT(!((wp->flags & SWP_SHOWWINDOW) && (wp->flags & SWP_HIDEWINDOW)));
CScalingRect(CPoint(wp->x, wp->y), CSize(wp->cx, wp->cy));
if (wp->flags & SWP_SHOWWINDOW) {
Visible(true);
} else if (wp->flags & SWP_HIDEWINDOW) {
Visible(false);
}
TRACELSM(TRACE_DETAIL, (dbgDump << "SurfaceState::SurfaceState(LPWINDOWPOS) visible = " << m_fVisible), "" );
}
SurfaceState& operator=(const SurfaceState& rhs) {
if (this != &rhs) {
CScalingRect::operator=(rhs);
m_fVisible = rhs.m_fVisible;
m_fForceAspectRatio = rhs.m_fForceAspectRatio;
m_fForceSourceSize = rhs.m_fForceSourceSize;
}
return *this;
}
SurfaceState& operator=(const CScalingRect& rhs) {
if (this != &rhs) {
CScalingRect::operator=(rhs);
}
return *this;
}
SurfaceState& operator=(const CRect& rhs) {
if (this != &rhs) {
CScalingRect::operator=(rhs);
}
return *this;
}
bool operator==(const SurfaceState& rhs) const {
return CRect::operator==(rhs) &&
rhs.m_fVisible == m_fVisible &&
rhs.m_fForceAspectRatio == m_fForceAspectRatio &&
rhs.m_fForceSourceSize == m_fForceSourceSize;
}
bool operator !=(const SurfaceState& rhs) const {
return !operator==(rhs);
}
bool operator==(const CScalingRect& rhs) const {
return CScalingRect::operator==(rhs);
}
bool operator !=(const CScalingRect& rhs) const {
return !operator==(rhs);
}
AspectRatio Aspect() const {
return AspectRatio(*this);
}
bool Round(const AspectRatio& ar) {
bool fChanged = false;
// at some point we probably want to round the current rectangle to the
// nearest rectangle that has the specified aspect ratio
// i.e. minimize total areal change
// if we ever round we should take the monitor size into consideration
// i.e if we decide to round up and we go off the monitor in either direction
// then round down instead.
// for now we're choosing the next size down for ease of coding
// try narrower first
TRACELSM(TRACE_PAINT, (dbgDump << "SurfaceState::Round() ar = " << ar << "this = " << *this), "");
NormalizeRect();
// adjust height and width to nearest multiple of x, y to avoid fractional pixel problems
ASSERT(ar.X() && ar.Y());
if (Width() % ar.X()) {
right -= Width() % ar.X();
TRACELSM(TRACE_PAINT, (dbgDump << "SurfaceState::Round() right adjusted to multiple = " << bottom), "");
fChanged = true;
}
if (Height() % ar.Y()) {
bottom -= Height() % ar.Y();
TRACELSM(TRACE_PAINT, (dbgDump << "SurfaceState::Round() bottom adjusted to multiple = " << bottom), "");
fChanged = true;
}
// force very small rectangles to minimum size;
if (Width() < MIN_RECT_WIDTH) {
right = left + ar.X();
fChanged = true;
TRACELSM(TRACE_PAINT, (dbgDump << "SurfaceState::Round() forcing min width = " << Width()), "");
}
if (Height() < MIN_RECT_HEIGHT) {
bottom = top + ar.Y();
fChanged = true;
TRACELSM(TRACE_PAINT, (dbgDump << "SurfaceState::Round() forcing min height = " << Height()), "");
}
TRACELSM(TRACE_PAINT, (dbgDump << "SurfaceState::Round() this = " << *this), "");
if (AspectRatio(this) != ar) {
TRACELSM(TRACE_PAINT, (dbgDump << "SurfaceState::Round() ar(this) x = " << AspectRatio(this).X()
<< " y = " << AspectRatio(this).Y()), "");
TRACELSM(TRACE_PAINT, (dbgDump << "SurfaceState::Round() terms w = " << Width()
<< " ratio w = " << ((ar.X() * Height()) / ar.Y())), "");
long delta = Width();
delta -= ((ar.X() * Height()) / ar.Y());
TRACELSM(TRACE_PAINT, (dbgDump << "SurfaceState::Round() delta = " << delta), "");
if (delta > 0) {
// too wide
ASSERT( ((Height() / ar.Y()) * ar.Y()) == Height());
right -= delta / 2; // distribute adjustment evenly on both sides
left += delta / 2; // shift so that adjustment is distributed evenly on both sides
if (delta & 1) {
--right; // if delta is odd distribute the extra on the right
}
TRACELSM(TRACE_PAINT, (dbgDump << "SurfaceState::Round() was too wide, now this = " << *this), "");
} else {
// too tall
delta = Height();
delta -= ((ar.Y() * Width()) / ar.X());
TRACELSM(TRACE_PAINT, (dbgDump << "SurfaceState::Round() too tall, now delta = " << delta), "");
ASSERT(delta > 0);
ASSERT( ((Width() / ar.X()) * ar.X()) == Width());
//bottom = (Width() / ar.X()) * ar.Y() + top;
bottom -= (delta >> 1);
top += (delta >> 1); // apply half of adjustment on each side
if (delta & 1) {
--bottom; // if delta is odd distribute the extra on the bottom
}
TRACELSM(TRACE_PAINT, (dbgDump << "SurfaceState::Round() was too tall, now this = " << *this), "");
}
fChanged = true;
}
TRACELSM(TRACE_PAINT, (dbgDump << "SurfaceState::Round() complete, this = " << *this << " ar.x = " << AspectRatio(this).X() << " ar.y = " << AspectRatio(this).Y()), "");
ASSERT(AspectRatio(this) == ar);
return fChanged;
}
bool IsVisible() const { return m_fVisible; }
void Visible(const bool fVal) {
if (m_fVisible != fVal) {
m_fVisible = fVal;
m_bRequiresSave = true;
}
}
bool ForceAspectRatio() const { return m_fForceAspectRatio; }
void ForceAspectRatio(const bool fVal) {
if (m_fForceAspectRatio != fVal) {
m_fForceAspectRatio = fVal;
m_bRequiresSave = true;
}
}
bool ForceSourceSize() const { return m_fForceSourceSize; }
void ForceSourceSize(const bool fVal) {
if (m_fForceSourceSize != fVal) {
m_fForceSourceSize = fVal;
m_bRequiresSave = true;
}
}
void WindowPos(const WINDOWPOS *const wp) {
ASSERT(!((wp->flags & SWP_SHOWWINDOW) && (wp->flags & SWP_HIDEWINDOW)));
HWND parent = ::GetParent(Owner());
CScalingRect newpos(CPoint(wp->x, wp->y), CSize(wp->cx, wp->cy), parent);
operator=(newpos);
if (wp->flags & SWP_SHOWWINDOW) {
Visible(true);
} else if (wp->flags & SWP_HIDEWINDOW) {
Visible(false);
}
TRACELSM(TRACE_DETAIL, (dbgDump << "SurfaceState::SurfaceState(LPWINDOWPOS) visible = " << m_fVisible), "" );
}
PQSiteWindowless Site() const { return m_pSiteWndless; }
void Site(const PQSiteWindowless& pSite) {
PQFrame pFrame;
PQUIWin pDoc;
// go ahead and reprocess even if site pointer matches existing site because the context may have changed and need
// to be refreshed(for example we've been deactived and are being reactivated in a different size by the same site
#if 0
if (m_pSiteWndless.IsEqualObject(static_cast<IUnknown*>(pSite.p))) {
return;
}
#endif
m_pSiteWndless = static_cast<IUnknown*>(pSite.p); // this forces the correct re-QI since atl improperly casts and overloads its pointer
if (m_pSiteWndless) {
CRect rc;
CRect clip;
OLEINPLACEFRAMEINFO frameInfo;
// for some stupid reason none of these parms can be NULL, even if we don't care about them
HRESULT hr = m_pSiteWndless->GetWindowContext(&pFrame, &pDoc, &rc, &clip, &frameInfo);
if (FAILED(hr)) {
TRACELM(TRACE_ERROR, "SurfaceState::operator=(InPlaceSite*) can't get window context with frame");
THROWCOM(hr);
}
CRect SiteRect;
SiteRect.IntersectRect(&rc, &clip);
HWND hOwner;
// get container window
hr = m_pSiteWndless->GetWindow(&hOwner);
if (FAILED(hr)) {
hr = pDoc->GetWindow(&hOwner);
if (FAILED(hr)) {
TRACELM(TRACE_DETAIL, "SurfaceState::operator=(InPlaceSite*) can't get doc Owner");
hr = pFrame->GetWindow(&hOwner);
if (FAILED(hr)) {
THROWCOM(hr);
}
}
}
ASSERT(::IsWindow(hOwner));
Owner(hOwner);
*this = SiteRect;
TRACELSM(TRACE_PAINT, (dbgDump << "SurfaceState::Site(InPlaceSite*) new rect = " << *this), "");
} else {
*this = CScalingRect(0, 0, 0, 0, INVALID_HWND);
}
return;
}
// translate a point relative to the owner window to a point relative to the rectangle
// for this surface
CPoint XlateOwnerPointToSurfacePoint(CPoint &p) {
TRACELSM(TRACE_PAINT, (dbgDump << "SurfaceState::Xlate p = " << p.x << ", " << p.y), "");
CPoint retp(p);
retp.x -= left;
retp.y -= top;
TRACELSM(TRACE_PAINT, (dbgDump << "SurfaceState::Xlate retp = " << retp.x << ", " << retp.y << " this " << *this), "");
return retp;
}
private:
bool m_fVisible;
bool m_fForceAspectRatio;
bool m_fForceSourceSize;
PQSiteWindowless m_pSiteWndless;
};
#endif
// end of file surface.h