Source code of Windows XP (NT5)
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//-----------------------------------------------------------------------------
// File: flextree.cpp
//
// Desc: Implements a tree class, similar to a Windows tree control,
// based on CFlexWnd. It is used by the page to display the action
// list when the user wishes to assign an action to a control.
//
// Copyright (C) 1999-2000 Microsoft Corporation. All Rights Reserved.
//-----------------------------------------------------------------------------
#include "common.hpp"
CFlexTree::CFlexTree() :
m_pRoot(NULL), m_bDirty(FALSE), m_bNeedPaintBkgnd(FALSE),
m_rgbBkColor(RGB(255,255,255)),
m_pCurSel(NULL), m_pLastAdded(NULL), m_bOwnerDraw(FALSE),
m_bVertSB(FALSE), m_bHorzSB(FALSE),
m_nVertSBWidth(11), m_nHorzSBHeight(11)
{
RECT z = {0,0,0,0};
m_defmargin = z;
m_clDefNormal.dwMask = CLMF_ALL;
m_clDefSelected.dwMask = CLMF_ALL;
m_ptScrollOrigin.x = m_ptScrollOrigin.y = 0;
// allocate root
m_pRoot = new CFTItem;
if (m_pRoot != NULL)
{
m_pRoot->SetRoot(this);
assert(m_pRoot->IsRoot());
}
}
CFlexTree::~CFlexTree()
{
if (m_pRoot)
delete m_pRoot;
m_pRoot = NULL;
}
CFTItem::CFTItem()
{
Init();
}
void CFTItem::Init()
{
m_pUserData = NULL;
m_bExpanded = FALSE;
m_pTree = NULL;
m_pParent = NULL;
m_pPrev = NULL;
m_pNext = NULL;
m_pFirst = NULL;
m_pLast = NULL;
m_ptszCaption = NULL;
m_nIndent = m_nWidth = m_nHeight = m_nBranchHeight = 0;
m_nChildIndent = 11;
RECT z = {0,0,0,0};
m_margin = z;
memset(&m_UserGUID, 0, sizeof(GUID));
SetCaption(TEXT(""));
}
CFTItem::~CFTItem()
{
// detach from parent (unless root)
if (!IsRoot())
Detach();
// remove all children
FreeChildren();
// free stuff
SetCaption(NULL);
}
void CFTItem::SetRoot(CFlexTree *pTree)
{
if (pTree == NULL)
{
assert(0);
return;
}
SetTree(pTree);
m_nIndent = 0;
m_nHeight = 0;
m_nWidth = 0;
m_nChildIndent = 0;
m_bExpanded = TRUE;
POINT origin = {0, 0};
m_origin = origin;
}
BOOL CFTItem::IsRoot() const
{
return m_pTree != NULL && m_pParent == NULL;
}
CFTItem *CFlexTree::GetFirstItem() const
{
if (m_pRoot == NULL)
return NULL;
return m_pRoot->GetFirstChild();
}
CFTItem *CFlexTree::GetLastItem() const
{
if (m_pRoot == NULL)
return NULL;
return m_pRoot->GetLastChild();
}
BOOL CFTItem::IsOnTree() const
{
return m_pTree != NULL;
}
BOOL CFTItem::IsAttached() const
{
if (IsRoot())
{
assert(0);
return TRUE;
}
return m_pParent != NULL;
}
BOOL CFTItem::IsAlone() const
{
return
m_pTree == NULL &&
m_pParent == NULL &&
m_pPrev == NULL &&
m_pNext == NULL &&
m_pFirst == NULL &&
m_pLast == NULL;
}
void CFTItem::FreeChildren()
{
while (m_pFirst != NULL)
{
CFTItem *pChild = m_pFirst;
delete pChild;
}
}
#define FORALLCHILDREN(pChild) \
for (CFTItem *pChild = m_pFirst; pChild != NULL; pChild = pChild->m_pNext)
void CFTItem::SetTree(CFlexTree *pTree)
{
// don't do anything if we've already got this tree
if (m_pTree == pTree)
return;
// if we are currently on a tree, tell it to lose any potential dangling pointers to us
if (m_pTree)
m_pTree->LosePointer(this);
// actually set this tree
m_pTree = pTree;
// set all children to this tree
FORALLCHILDREN(pChild)
pChild->SetTree(pTree);
}
void CFTItem::Detach()
{
// don't allow root detachment
if (IsRoot())
{
assert(0);
return;
}
// if we're already detached, do nothing
if (!IsAttached())
return;
// unlink from parent
if (m_pParent->m_pFirst == this)
m_pParent->m_pFirst = m_pNext;
if (m_pParent->m_pLast == this)
m_pParent->m_pLast = m_pPrev;
m_pParent = NULL;
// unlink from siblings
if (m_pPrev)
m_pPrev->m_pNext = m_pNext;
if (m_pNext)
m_pNext->m_pPrev = m_pPrev;
m_pPrev = m_pNext = NULL;
// save tree because we're about to lose it
CFlexTree *pTree = m_pTree;
// tell ourself and all children that we are no longer on a tree
SetTree(NULL);
// the tree needs to be recalced
if (pTree)
SetTreeDirty(pTree);
}
BOOL CFTItem::Attach(CFTItem *to, ATTACHREL rel)
{
// can't attach root to anything, can't attach to nothing, and can't attach if already attached
if (IsRoot() || to == NULL || IsAttached())
{
assert(0);
return FALSE;
}
// first make sure we're not attaching to root in an impossible way
if (to->IsRoot())
switch (rel)
{
// only the following are valid for attaching to root
case ATTACH_FIRSTCHILD:
case ATTACH_LASTCHILD:
break;
// all others are invalid
default:
assert(0);
return FALSE;
}
// now convert attaching as first/last sibling to equiv first/last child of parent
switch (rel)
{
case ATTACH_FIRSTSIBLING:
return Attach(to->m_pParent, ATTACH_FIRSTCHILD);
case ATTACH_LASTSIBLING:
return Attach(to->m_pParent, ATTACH_LASTCHILD);
}
// send to the more specific attach function
switch (rel)
{
case ATTACH_FIRSTCHILD:
return Attach(to, NULL, to->m_pFirst);
case ATTACH_LASTCHILD:
return Attach(to, to->m_pLast, NULL);
case ATTACH_BEFORE:
return Attach(to->m_pParent, to->m_pPrev, to);
case ATTACH_AFTER:
return Attach(to->m_pParent, to, to->m_pNext);
default:
assert(0); // unhandled rel
return FALSE;
}
}
BOOL CFTItem::Attach(CFTItem *pParent, CFTItem *pPrev, CFTItem *pNext)
{
// can't attach root to anything, can't attach to no parent, and can't attach if already attached
if (IsRoot() || pParent == NULL || IsAttached())
{
assert(0);
return FALSE;
}
// prev/next, if provided, must be children of parent
if ((pPrev && pPrev->m_pParent != pParent) ||
(pNext && pNext->m_pParent != pParent))
{
assert(0);
return FALSE;
}
// pPrev and pNext must be consecutive
if ((pPrev && pPrev->m_pNext != pNext) ||
(pNext && pNext->m_pPrev != pPrev))
{
assert(0);
return FALSE;
}
// insert
if (pPrev)
pPrev->m_pNext = this;
else
pParent->m_pFirst = this;
if (pNext)
pNext->m_pPrev = this;
else
pParent->m_pLast = this;
// attach
m_pParent = pParent;
m_pPrev = pPrev;
m_pNext = pNext;
// set the tree
SetTree(pParent->m_pTree);
// tree needs to be recalced
SetTreeDirty();
return TRUE;
}
void CFlexTree::SetDirty()
{
m_bDirty = TRUE;
Invalidate();
}
void CFTItem::SetTreeDirty(CFlexTree *pTree)
{
if (pTree == NULL)
pTree = m_pTree;
if (pTree)
pTree->SetDirty();
}
void CFTItem::SetWidth(int i)
{
if (m_nWidth == i)
return;
m_nWidth = i;
SetTreeDirty();
}
void CFTItem::SetHeight(int i)
{
if (m_nHeight == i)
return;
m_nHeight = i;
SetTreeDirty();
}
void CFTItem::SetIndent(int i)
{
if (m_nIndent == i)
return;
m_nIndent = i;
SetTreeDirty();
}
void CFTItem::SetChildIndent(int i)
{
if (m_nChildIndent == i)
return;
m_nChildIndent = i;
SetTreeDirty();
}
void CFlexTree::OnPaint(HDC hDC)
{
HDC hBDC = NULL, hODC = NULL;
CBitmap *pbm = NULL;
m_bNeedPaintBkgnd = TRUE;
if (!InRenderMode())
{
hODC = hDC;
pbm = CBitmap::Create(GetClientSize(), m_rgbBkColor, hDC);
if (pbm != NULL)
{
hBDC = pbm->BeginPaintInto();
if (hBDC != NULL)
{
hDC = hBDC;
m_bNeedPaintBkgnd = FALSE;
}
}
}
InternalPaint(hDC);
if (!InRenderMode())
{
if (pbm != NULL)
{
if (hBDC != NULL)
{
pbm->EndPaintInto(hBDC);
pbm->Draw(hODC);
}
delete pbm;
}
}
}
void CFlexTree::InternalPaint(HDC hDC)
{
// get client rect
RECT rect;
GetClientRect(&rect);
// get view rect (ideal coordinates we're viewing)
RECT view = rect;
OffsetRect(&view, m_ptScrollOrigin.x, m_ptScrollOrigin.y);
// paint background if necessary
if (m_bNeedPaintBkgnd)
{
HBRUSH hBrush = CreateSolidBrush(m_rgbBkColor);
if (hBrush != NULL)
{
HGDIOBJ hOldBrush = SelectObject(hDC, hBrush);
HGDIOBJ hOldPen = SelectObject(hDC, GetStockObject(NULL_PEN));
RECT t = rect;
InflateRect(&t, 1, 1);
Rectangle(hDC, t.left, t.top, t.right, t.bottom);
SelectObject(hDC, hOldPen);
SelectObject(hDC, hOldBrush);
DeleteObject((HGDIOBJ)hBrush);
}
}
// recalculate if necessary
Calc();
// start with the first visible item
CFTItem *pItem = GetFirstVisibleItem();
// draw until we go out of view
for (; pItem != NULL; pItem = pItem->GetNextOut())
{
RECT irect;
pItem->GetItemRect(irect);
if (irect.top >= view.bottom)
break;
OffsetRect(&irect, -m_ptScrollOrigin.x, -m_ptScrollOrigin.y);
POINT oldorg;
OffsetViewportOrgEx(hDC, irect.left, irect.top, &oldorg);
// TODO: clip
if (!pItem->FireOwnerDraw(hDC))
pItem->OnPaint(hDC);
SetViewportOrgEx(hDC, oldorg.x, oldorg.y, NULL);
}
// Fill in the small square at bottom right corner if we have both scroll bars.
if (m_bVertSB && m_bHorzSB)
{
HBRUSH hBrush = CreateSolidBrush(m_clDefNormal.rgbLineColor);
if (hBrush != NULL)
{
HGDIOBJ hOldBrush = SelectObject(hDC, hBrush);
HGDIOBJ hPen = CreatePen(PS_SOLID, 0, m_clDefNormal.rgbLineColor);
if (hPen != NULL)
{
HGDIOBJ hOldPen = SelectObject(hDC, hPen);
RECT rc = rect;
SIZE size;
size = m_VertSB.GetClientSize();
rc.left = rc.right - size.cx;
size = m_HorzSB.GetClientSize();
rc.top = rc.bottom - size.cy;
Rectangle(hDC, rc.left, rc.top, rc.right, rc.bottom);
SelectObject(hDC, hOldPen);
DeleteObject((HGDIOBJ) hPen);
}
SelectObject(hDC, hOldBrush);
DeleteObject((HGDIOBJ)hBrush);
}
}
}
void CFlexTree::Calc()
{
if (!m_bDirty)
return;
m_bDirty = FALSE;
CalcItems();
BOOL bH = FALSE, bV = FALSE;
if (m_pRoot != NULL)
{
SIZE view = GetClientSize();
SIZE all = {m_nTotalWidth, m_pRoot->m_nBranchHeight};
for (int i = 0; i < 2; i++)
{
// Added GetFirstVisibleItem() check since we don't want scroll bar if nothing is to be
// displayed.
if (!bV && all.cy > view.cy && GetFirstVisibleItem())
{
bV = TRUE;
view.cx -= m_nVertSBWidth;
}
if (!bH && all.cx > view.cx)
{
bH = TRUE;
view.cy -= m_nHorzSBHeight;
}
}
if (bH)
{
m_HorzSB.SetValues(0, all.cx, view.cx, m_ptScrollOrigin.x);
MoveWindow(m_HorzSB.m_hWnd, 0, view.cy, view.cx, m_nHorzSBHeight, TRUE);
}
if (bV)
{
m_VertSB.SetValues(0, all.cy, view.cy, m_ptScrollOrigin.y);
MoveWindow(m_VertSB.m_hWnd, view.cx, 0, m_nVertSBWidth, view.cy, TRUE);
}
}
if (bH && !m_bHorzSB || !bH && m_bHorzSB)
{
ShowWindow(m_HorzSB.m_hWnd, bH ? SW_SHOW : SW_HIDE);
if (!bH)
{
m_ptScrollOrigin.x = 0;
Invalidate();
}
}
m_bHorzSB = bH;
if (bV && !m_bVertSB || !bV && m_bVertSB)
{
ShowWindow(m_VertSB.m_hWnd, bV ? SW_SHOW : SW_HIDE);
if (!bV)
{
m_ptScrollOrigin.y = 0;
Invalidate();
}
}
m_bVertSB = bV;
}
void CFlexTree::CalcItems()
{
// can't do anything without root
if (m_pRoot == NULL)
return;
// calculate the entire tree in out/down order starting with first child of root...
POINT origin = {0, 0};
CFTItem *pItem = m_pRoot->m_pFirst;
m_nTotalWidth = 0;
while (pItem != NULL)
{
// let this item know its out
// get parent origin
CFTItem *pParent = pItem->m_pParent;
assert(pParent != NULL);
// calc origin...
// if we're the first child
if (pItem->m_pPrev == NULL)
{
// base origin on the parent
if (pParent)
{
origin.x = pParent->m_origin.x - pParent->m_nIndent + pParent->m_nChildIndent + pItem->m_nIndent;
origin.y = pParent->m_origin.y + pParent->m_nHeight;
}
}
else // otherwise
{
// base origin on the previous sibling
CFTItem *pPrev = pItem->m_pPrev;
assert(pPrev != NULL);
if (pPrev)
{
origin.x = pPrev->m_origin.x - pPrev->m_nIndent + pItem->m_nIndent;
origin.y = pPrev->m_origin.y + pPrev->m_nBranchHeight;
}
}
// set origin
pItem->m_origin = origin;
// see which direction we'll be going next
CFTItem *pNext = pItem->GetNextOut();
enum {RIGHT, DOWN, BACK, NOWHERE, INVALID} dir = INVALID;
if (pNext == NULL)
dir = NOWHERE;
else if (pNext == pItem->m_pNext)
dir = DOWN;
else if (pNext == pItem->m_pFirst)
dir = RIGHT;
else
dir = BACK;
// if we're going down, back, or nowhere, we can complete this item's branchheight
switch (dir)
{
case DOWN:
case BACK:
case NOWHERE:
pItem->m_nBranchHeight = pItem->m_nHeight;
break;
}
// calc for skipped items when going back
switch (dir)
{
case BACK:
case NOWHERE:
{
CFTItem *pStop = NULL;
if (dir == BACK)
pStop = pNext->m_pParent;
CFTItem *pWalk = pItem->m_pParent;
while (1)
{
if (pWalk == pStop)
break;
pWalk->m_nBranchHeight = pItem->m_origin.y +
pItem->m_nBranchHeight - pWalk->m_origin.y;
pWalk = pWalk->m_pParent;
}
break;
}
case INVALID:
assert(0);
break;
}
RECT rect;
pItem->GetItemRect(rect);
if (rect.right > m_nTotalWidth)
m_nTotalWidth = rect.right;
// now go to next item
pItem = pNext;
}
}
CFTItem *CFTItem::GetNextOut() const
{
return GetNext(TRUE);
}
CFTItem *CFTItem::GetNext(BOOL bOutOnly) const
{
// if we have a child and we're expanded (or we're not looking for out only), return the first child (going 'right')
if ((m_bExpanded || !bOutOnly) && m_pFirst != NULL)
return m_pFirst;
// if we have a next sibling, return it (going 'down')
if (m_pNext != NULL)
return m_pNext;
// climb up parents until we get to one with another next sibling
for (CFTItem *pItem = m_pParent; pItem != NULL; pItem = pItem->m_pParent)
if (pItem->m_pNext != NULL)
return pItem->m_pNext;
// if we didn't find one, we're done
return NULL;
}
void CFTItem::GetItemRect(RECT &rect) const
{
rect.left = m_origin.x;
rect.top = m_origin.y;
rect.right = rect.left + m_nWidth;
rect.bottom = rect.top + m_nHeight;
}
void CFTItem::GetBranchRect(RECT &rect) const
{
rect.left = m_origin.x;
rect.top = m_origin.y;
rect.right = rect.left + m_nWidth;
rect.bottom = rect.top + m_nBranchHeight;
}
void CFTItem::SetCaption(LPCTSTR tszCaption)
{
if (m_ptszCaption != NULL)
free(m_ptszCaption);
if (tszCaption == NULL)
m_ptszCaption = NULL;
else
m_ptszCaption = _tcsdup(tszCaption);
RecalcText();
}
LPCTSTR CFTItem::GetCaption() const
{
return m_ptszCaption;
}
void CFTItem::SetMargin(const RECT &rect)
{
m_margin = rect;
RecalcText();
}
void CFTItem::RecalcText()
{
// calculate size from text dimensions and margin
SIZE size = {0, 0};
if (HasCaption())
{
RECT trect = {0, 0, 1, 1};
HDC hDC = CreateCompatibleDC(NULL);
if (hDC != NULL)
{
HGDIOBJ hOld = NULL;
HFONT hFont = IsSelected() ? m_clSelected.hFont : m_clNormal.hFont;
if (hFont)
hOld = SelectObject(hDC, hFont);
DrawText(hDC, m_ptszCaption, -1, &trect, DT_CALCRECT | DT_NOPREFIX);
if (hFont)
SelectObject(hDC, hOld);
DeleteDC(hDC);
SIZE tsize = {trect.right - trect.left, trect.bottom - trect.top};
size = tsize;
}
}
SetWidth(m_margin.left + m_margin.right + size.cx);
SetHeight(m_margin.top + m_margin.bottom + size.cy);
// redraw
Invalidate();
}
void CFTItem::Invalidate()
{
if (m_pTree)
m_pTree->Invalidate();
}
typedef CArray<LPDIACTIONW, LPDIACTIONW &> RGLPDIACW;
void CFTItem::OnPaint(HDC hDC)
{
CAPTIONLOOK &cl = (IsSelected() && !GetTree()->GetReadOnly()) ? m_clSelected : m_clNormal; // Always use normal color if read-only since we gray out everything.
::SetBkMode(hDC, cl.nBkMode);
LPDIACTIONW lpac = NULL;
if (m_pUserData)
lpac = ((RGLPDIACW *)m_pUserData)->GetAt(0); // Get the DIACTION this item holds.
if (GetTree()->GetReadOnly() || (lpac && (lpac->dwFlags & DIA_APPFIXED))) // If read-only or the action has DIA_APPFIXED flag, use gray color for texts.
::SetTextColor(hDC, RGB(GetRValue(cl.rgbTextColor) >> 1, GetGValue(cl.rgbTextColor) >> 1, GetBValue(cl.rgbTextColor) >> 1));
else
::SetTextColor(hDC, cl.rgbTextColor);
::SetBkColor(hDC, cl.rgbBkColor);
HGDIOBJ hOld = NULL;
if (cl.hFont)
hOld = SelectObject(hDC, cl.hFont);
RECT trect = {m_margin.left, m_margin.top, m_margin.left + 1, m_margin.top + 1};
DrawText(hDC, m_ptszCaption, -1, &trect, DT_NOPREFIX | DT_NOCLIP);
if (cl.hFont)
SelectObject(hDC, hOld);
}
BOOL CFlexTree::Create(HWND hParent, const RECT &rect, BOOL bVisible, BOOL bOwnerDraw)
{
m_bOwnerDraw = bOwnerDraw;
if (CFlexWnd::Create(hParent, rect, bVisible) == NULL)
return FALSE;
FLEXSCROLLBARCREATESTRUCT cs;
cs.dwSize = sizeof(FLEXSCROLLBARCREATESTRUCT);
cs.min = 0;
cs.max = 10;
cs.page = 3;
cs.pos = 5;
cs.hWndParent = m_hWnd;
cs.hWndNotify = NULL;
cs.rect.left = 0;
cs.rect.top = 0;
cs.rect.right = 5;
cs.rect.bottom = 5;
cs.bVisible = FALSE;
cs.dwFlags = FSBF_VERT;
m_VertSB.Create(&cs);
cs.dwFlags = FSBF_HORZ;
m_HorzSB.Create(&cs);
return TRUE;
}
void CFlexTree::SetDefCaptionLook(const CAPTIONLOOK &cl, BOOL bSel)
{
CAPTIONLOOK &set = bSel ? m_clDefSelected : m_clDefNormal;
if (cl.dwMask & CLMF_TEXTCOLOR)
set.rgbTextColor = cl.rgbTextColor;
if (cl.dwMask & CLMF_BKCOLOR)
set.rgbBkColor = cl.rgbBkColor;
if (cl.dwMask & CLMF_LINECOLOR)
set.rgbLineColor = cl.rgbLineColor;
if (cl.dwMask & CLMF_BKMODE)
set.nBkMode = cl.nBkMode;
if (cl.dwMask & CLMF_BKEXTENDS)
set.bBkExtends = cl.bBkExtends;
if (cl.dwMask & CLMF_FONT)
set.hFont = cl.hFont;
}
void CFlexTree::GetDefCaptionLook(CAPTIONLOOK &cl, BOOL bSel) const
{
const CAPTIONLOOK &from = bSel ? m_clDefSelected : m_clDefNormal;
cl = from;
cl.dwMask = CLMF_ALL;
}
void CFlexTree::SetBkColor(COLORREF rgb)
{
m_rgbBkColor = rgb;
Invalidate();
}
COLORREF CFlexTree::GetBkColor() const
{
return m_rgbBkColor;
}
void CFlexTree::SetCurSel(CFTItem *pItem)
{
if (pItem == m_pCurSel)
return;
CFTItem *pOld = m_pCurSel;
m_pCurSel = pItem;
if (pOld)
pOld->SelChangedInternal();
if (m_pCurSel)
m_pCurSel->SelChangedInternal();
FireSelChanged(m_pCurSel, pOld);
Invalidate();
}
CFTItem *CFlexTree::GetCurSel() const
{
return m_pCurSel;
}
CFTItem *CFlexTree::FindItem(const GUID &guid, void *pUserData) const
{
// go until we get to the item with specified guid and userdata
for (CFTItem *pItem = GetFirstItem(); pItem != NULL; pItem = pItem->GetNext())
if (pItem->IsUserGUID(guid) && pItem->GetUserData() == pUserData)
return pItem;
// unless there isn't one
return NULL;
}
CFTItem *CFlexTree::FindItemEx(const GUID &guid, DWORD dwUser, void *pUser) const
{
// go until we get to the item with specified guid and found item returns true
for (CFTItem *pItem = GetFirstItem(); pItem != NULL; pItem = pItem->GetNext())
if (pItem->IsUserGUID(guid) && pItem->FoundItem(dwUser, pUser))
return pItem;
// unless there isn't one
return NULL;
}
void CFTItem::SetCaptionLook(const CAPTIONLOOK &cl, BOOL bSel)
{
CAPTIONLOOK &set = bSel ? m_clSelected : m_clNormal;
if (cl.dwMask & CLMF_TEXTCOLOR)
set.rgbTextColor = cl.rgbTextColor;
if (cl.dwMask & CLMF_BKCOLOR)
set.rgbBkColor = cl.rgbBkColor;
if (cl.dwMask & CLMF_LINECOLOR)
set.rgbLineColor = cl.rgbLineColor;
if (cl.dwMask & CLMF_BKMODE)
set.nBkMode = cl.nBkMode;
if (cl.dwMask & CLMF_BKEXTENDS)
set.bBkExtends = cl.bBkExtends;
if (cl.dwMask & CLMF_FONT)
set.hFont = cl.hFont;
if (IsSelected() == bSel)
RecalcText();
}
void CFTItem::GetCaptionLook(CAPTIONLOOK &cl, BOOL bSel) const
{
const CAPTIONLOOK &from = bSel ? m_clSelected : m_clNormal;
cl = from;
cl.dwMask = CLMF_ALL;
}
void CFTItem::GetMargin(RECT &rect) const
{
rect = m_margin;
}
void CFTItem::SelChangedInternal()
{
if (m_clNormal.hFont != m_clSelected.hFont)
RecalcText();
}
CFTItem *CFlexTree::DefAddItem(LPCTSTR tszCaption, CFTItem *to, ATTACHREL rel)
{
if (m_pRoot == NULL)
return NULL;
if (!to)
return DefAddItem(tszCaption, rel);
if (!IsMine(to))
{
assert(0); // can't add relative to item that doesn't belong to this tree
return NULL;
}
CFTItem *p = new CFTItem;
if (!p)
return NULL;
p->SetCaptionLook(m_clDefNormal);
p->SetCaptionLook(m_clDefSelected, TRUE);
p->SetChildIndent(m_nDefChildIndent);
p->SetMargin(m_defmargin);
p->SetCaption(tszCaption);
p->Attach(to, rel);
return m_pLastAdded = p;
}
CFTItem *CFlexTree::DefAddItem(LPCTSTR tszCaption, ATTACHREL rel)
{
if (m_pRoot == NULL)
return NULL;
assert(this != NULL);
if (this == NULL) // prevent infinite recursion possibility
return NULL;
if (!m_pLastAdded)
return DefAddItem(tszCaption, m_pRoot, ATTACH_LASTCHILD);
else
return DefAddItem(tszCaption, m_pLastAdded, rel);
}
void CFlexTree::SetDefMargin(const RECT &rect)
{
m_defmargin = rect;
}
void CFlexTree::GetDefMargin(RECT &rect) const
{
rect = m_defmargin;
}
BOOL CFlexTree::IsMine(CFTItem *pItem)
{
if (pItem == NULL)
return FALSE;
return pItem->m_pTree == this;
}
BOOL CFTItem::IsSelected() const
{
if (!m_pTree)
return FALSE;
return m_pTree->m_pCurSel == this;
}
CFTItem *CFlexTree::GetFirstVisibleItem() const
{
// get view rect (ideal coordinates we're viewing)
RECT view;
GetClientRect(&view);
OffsetRect(&view, m_ptScrollOrigin.x, m_ptScrollOrigin.y);
// start at first child of root
CFTItem *pItem = m_pRoot->GetFirstChild();
if (pItem == NULL)
return NULL;
// find first item in view
RECT branch, irect;
while (1)
{
// find first branch in view
while (1)
{
pItem->GetBranchRect(branch);
if (branch.bottom > view.top)
break;
pItem = pItem->GetNextSibling();
if (pItem == NULL)
return NULL;
}
// now actually go through items
pItem->GetItemRect(irect);
if (irect.bottom > view.top)
break;
pItem = pItem->GetNextOut();
if (pItem == NULL)
return NULL;
}
// we got it, so return it
return pItem;
}
CFTItem *CFlexTree::GetItemFromPoint(POINT point) const
{
if (m_hWnd == NULL)
return NULL;
RECT rect;
GetClientRect(&rect);
if (!PtInRect(&rect, point))
return NULL;
for (CFTItem *pItem = GetFirstVisibleItem(); pItem != NULL; pItem = pItem->GetNextOut())
{
RECT irect;
pItem->GetItemRect(irect);
OffsetRect(&irect, -m_ptScrollOrigin.x, -m_ptScrollOrigin.y);
if (irect.top >= rect.bottom)
return NULL;
if (PtInRect(&irect, point))
return pItem;
}
return NULL;
}
void CFlexTree::OnMouseOver(POINT point, WPARAM fwKeys)
{
// Send mouse over notification to page to update info box.
HWND hParent = ::GetParent(m_hWnd);
if (hParent)
SendMessage(hParent, WM_FLEXTREENOTIFY, FTN_MOUSEOVER, NULL);
CFTItem *pItem = GetItemFromPoint(point);
if (!pItem)
return;
POINT rel = {point.x - pItem->m_origin.x, point.y - pItem->m_origin.y};
pItem->OnMouseOver(point, fwKeys);
}
void CFlexTree::OnClick(POINT point, WPARAM fwKeys, BOOL bLeft)
{
// If the tree is read-only, ignore all clicks.
if (GetReadOnly())
return;
CFTItem *pItem = GetItemFromPoint(point);
if (!pItem)
{
FireClick(NULL, point, fwKeys, bLeft);
return;
}
POINT rel = {point.x - pItem->m_origin.x, point.y - pItem->m_origin.y};
pItem->OnClick(point, fwKeys, bLeft);
}
void CFTItem::OnClick(POINT point, WPARAM fwKeys, BOOL bLeft)
{
FireClick(point, fwKeys, bLeft);
}
void CFlexTree::OnWheel(POINT point, WPARAM wParam)
{
if (!m_bVertSB) return;
int nPage = MulDiv(m_VertSB.GetPage(), 9, 10) >> 1; // Half a page at a time
if ((int)wParam >= 0)
m_VertSB.AdjustPos(-nPage);
else
m_VertSB.AdjustPos(nPage);
m_ptScrollOrigin.y = m_VertSB.GetPos();
if (m_ptScrollOrigin.y < 0)
m_ptScrollOrigin.y = 0;
Invalidate();
}
void CFlexTree::FireClick(CFTItem *pItem, POINT point, WPARAM fwKeys, BOOL bLeft)
{
FLEXTREENOTIFY n;
n.pTree = this;
n.pItem = pItem;
n.pOldItem = NULL;
n.hDC = NULL;
n.point = point;
n.fwKeys = fwKeys;
n.bLeft = bLeft;
HWND hParent = ::GetParent(m_hWnd);
if (hParent)
SendMessage(hParent, WM_FLEXTREENOTIFY, FTN_CLICK, (LRESULT)(LPVOID)&n);
}
BOOL CFlexTree::FireOwnerDraw(CFTItem *pItem, HDC hDC)
{
if (!m_bOwnerDraw)
return FALSE;
FLEXTREENOTIFY n;
n.pTree = this;
n.pItem = pItem;
n.pOldItem = NULL;
n.hDC = hDC;
HWND hParent = ::GetParent(m_hWnd);
if (hParent)
return (BOOL)SendMessage(hParent, WM_FLEXTREENOTIFY, FTN_OWNERDRAW, (LRESULT)(LPVOID)&n);
else
return FALSE;
}
void CFlexTree::FireSelChanged(CFTItem *pItem, CFTItem *pOld)
{
assert(pItem == m_pCurSel);
FLEXTREENOTIFY n;
n.pTree = this;
n.pItem = pItem;
n.pOldItem = pOld;
n.hDC = NULL;
HWND hParent = ::GetParent(m_hWnd);
if (hParent)
SendMessage(hParent, WM_FLEXTREENOTIFY, FTN_SELCHANGED, (LRESULT)(LPVOID)&n);
}
void CFTItem::FireClick(POINT point, WPARAM fwKeys, BOOL bLeft)
{
if (m_pTree)
m_pTree->FireClick(this, point, fwKeys, bLeft);
}
BOOL CFTItem::FireOwnerDraw(HDC hDC)
{
if (m_pTree)
return m_pTree->FireOwnerDraw(this, hDC);
else
return FALSE;
}
void CFTItem::Expand(BOOL bAll)
{
InternalExpand(TRUE, bAll);
}
void CFTItem::Collapse(BOOL bAll)
{
InternalExpand(FALSE, bAll);
}
void CFTItem::InternalExpand(BOOL bExpand, BOOL bAll)
{
if (!HasChildren())
return;
BOOL bE = m_bExpanded;
if (!IsRoot())
m_bExpanded = bExpand;
if (bAll)
FORALLCHILDREN(pChild)
pChild->InternalExpand(bExpand, TRUE);
if (bE != m_bExpanded)
SetTreeDirty();
}
BOOL CFTItem::IsOut() const
{
CFTItem *pParent = GetParent();
for (; pParent != NULL; pParent = pParent->GetParent())
if (!pParent->IsExpanded())
return FALSE;
return TRUE;
}
void CFlexTree::FreeAll()
{
if (m_pRoot)
m_pRoot->FreeChildren();
}
void CFTItem::EnsureVisible()
{
// TBD
}
void CFlexTree::LosePointer(CFTItem *pItem)
{
if (m_pCurSel == pItem)
SetCurSel(NULL);
if (m_pLastAdded == pItem)
m_pLastAdded = NULL;
}
void CFlexTree::SetRootChildIndent(int i)
{
if (!m_pRoot)
return;
m_pRoot->m_nChildIndent = i;
SetDirty();
}
int CFlexTree::GetRootChildIndent() const
{
if (!m_pRoot)
return 0;
return m_pRoot->m_nChildIndent;
}
void CFlexTree::SetDefChildIndent(int i)
{
m_nDefChildIndent = i;
}
int CFlexTree::GetDefChildIndent() const
{
return m_nDefChildIndent;
}
void CFTItem::PaintInto(HDC hDC)
{
if (hDC != NULL)
OnPaint(hDC);
}
LRESULT CFlexTree::WndProc(HWND hWnd, UINT msg, WPARAM wParam, LPARAM lParam)
{
switch (msg)
{
case WM_FLEXVSCROLL:
case WM_FLEXHSCROLL:
{
int code = (int)wParam;
CFlexScrollBar *pSB = (CFlexScrollBar *)lParam;
if (!pSB)
return 0;
int nLine = 5;
int nPage = MulDiv(pSB->GetPage(), 9, 10);
switch (code)
{
case SB_LINEUP: pSB->AdjustPos(-nLine); break;
case SB_LINEDOWN: pSB->AdjustPos(nLine); break;
case SB_PAGEUP: pSB->AdjustPos(-nPage); break;
case SB_PAGEDOWN: pSB->AdjustPos(nPage); break;
case SB_THUMBTRACK: pSB->SetPos(pSB->GetThumbPos()); break;
}
switch (msg)
{
case WM_FLEXHSCROLL:
m_ptScrollOrigin.x = pSB->GetPos();
break;
case WM_FLEXVSCROLL:
m_ptScrollOrigin.y = pSB->GetPos();
break;
}
Invalidate();
return 0;
}
default:
return CFlexWnd::WndProc(hWnd, msg, wParam, lParam);
}
}
void CFlexTree::SetScrollBarColors(COLORREF bk, COLORREF fill, COLORREF line)
{
m_VertSB.SetColors(bk, fill, line);
m_HorzSB.SetColors(bk, fill, line);
}