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The bulk of this commit was generated with a script, executed at the top level of a typical source code checkout. The only non-machine-generated part was modifying MFBT's moz.build to reflect the new naming. CLOSED TREE makes big refactorings like this a piece of cake. # The main substitution. find . -name '*.cpp' -o -name '*.cc' -o -name '*.h' -o -name '*.mm' -o -name '*.idl'| \ xargs perl -p -i -e ' s/nsRefPtr\.h/RefPtr\.h/g; # handle includes s/nsRefPtr ?</RefPtr</g; # handle declarations and variables ' # Handle a special friend declaration in gfx/layers/AtomicRefCountedWithFinalize.h. perl -p -i -e 's/::nsRefPtr;/::RefPtr;/' gfx/layers/AtomicRefCountedWithFinalize.h # Handle nsRefPtr.h itself, a couple places that define constructors # from nsRefPtr, and code generators specially. We do this here, rather # than indiscriminantly s/nsRefPtr/RefPtr/, because that would rename # things like nsRefPtrHashtable. perl -p -i -e 's/nsRefPtr/RefPtr/g' \ mfbt/nsRefPtr.h \ xpcom/glue/nsCOMPtr.h \ xpcom/base/OwningNonNull.h \ ipc/ipdl/ipdl/lower.py \ ipc/ipdl/ipdl/builtin.py \ dom/bindings/Codegen.py \ python/lldbutils/lldbutils/utils.py # In our indiscriminate substitution above, we renamed # nsRefPtrGetterAddRefs, the class behind getter_AddRefs. Fix that up. find . -name '*.cpp' -o -name '*.h' -o -name '*.idl' | \ xargs perl -p -i -e 's/nsRefPtrGetterAddRefs/RefPtrGetterAddRefs/g' if [ -d .git ]; then git mv mfbt/nsRefPtr.h mfbt/RefPtr.h else hg mv mfbt/nsRefPtr.h mfbt/RefPtr.h fi --HG-- rename : mfbt/nsRefPtr.h => mfbt/RefPtr.h |
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lldbutils | ||
README.txt |
lldb debugging functionality for Gecko ====================================== This directory contains a module, lldbutils, which is imported by the in-tree .lldbinit file. The lldbutil modules define some lldb commands that are handy for debugging Gecko. If you want to add a new command or Python-implemented type summary, either add it to one of the existing broad area Python files (such as lldbutils/layout.py for layout-related commands) or create a new file if none of the existing files is appropriate. If you add a new file, make sure you add it to __all__ in lldbutils/__init__.py. Supported commands ------------------ Most commands below that can take a pointer to an object also support being called with a smart pointer like nsRefPtr or nsCOMPtr. * frametree EXPR, ft EXPR frametreelimited EXPR, ftl EXPR Shows information about a frame tree. EXPR is an expression that is evaluated, and must be an nsIFrame*. frametree displays the entire frame tree that contains the given frame. frametreelimited displays a subtree of the frame tree rooted at the given frame. (lldb) p this (nsBlockFrame *) $4 = 0x000000011687fcb8 (lldb) ftl this Block(div)(-1)@0x11687fcb8 {0,0,7380,690} [state=0002100000d04601] [content=0x11688c0c0] [sc=0x11687f990:-moz-scrolled-content]< line 0x116899130: count=1 state=inline,clean,prevmarginclean,not impacted,not wrapped,before:nobr,after:nobr[0x100] {60,0,0,690} vis-overflow=60,510,0,0 scr-overflow=60,510,0,0 < Text(0)""@0x1168990c0 {60,510,0,0} [state=0001000020404000] [content=0x11687ca10] [sc=0x11687fd88:-moz-non-element,parent=0x11687eb00] [run=0x115115e80][0,0,T] > > (lldb) ft this Viewport(-1)@0x116017430 [view=0x115efe190] {0,0,60,60} [state=000b063000002623] [sc=0x1160170f8:-moz-viewport]< HTMLScroll(html)(-1)@0x1160180d0 {0,0,0,0} [state=000b020000000403] [content=0x115e4d640] [sc=0x116017768:-moz-viewport-scroll]< ... Canvas(html)(-1)@0x116017e08 {0,0,60,60} vis-overflow=0,0,8340,2196 scr-overflow=0,0,8220,2196 [state=000b002000000601] [content=0x115e4d640] [sc=0x11687e0f8:-moz-scrolled-canvas]< Block(html)(-1)@0x11687e578 {0,0,60,2196} vis-overflow=0,0,8340,2196 scr-overflow=0,0,8220,2196 [state=000b100000d00601] [content=0x115e4d640] [sc=0x11687e4b8,parent=0x0]< line 0x11687ec48: count=1 state=block,clean,prevmarginclean,not impacted,not wrapped,before:nobr,after:nobr[0x48] bm=480 {480,480,0,1236} vis-overflow=360,426,7980,1410 scr-overflow=480,480,7740,1236 < Block(body)(1)@0x11687ebb0 {480,480,0,1236} vis-overflow=-120,-54,7980,1410 scr-overflow=0,0,7740,1236 [state=000b120000100601] [content=0x115ed8980] [sc=0x11687e990]< line 0x116899170: count=1 state=inline,clean,prevmarginclean,not impacted,not wrapped,before:nobr,after:nobr[0x0] {0,0,7740,1236} vis-overflow=-120,-54,7980,1410 scr-overflow=0,0,7740,1236 < nsTextControlFrame@0x11687f068 {0,66,7740,1170} vis-overflow=-120,-120,7980,1410 scr-overflow=0,0,7740,1170 [state=0002000000004621] [content=0x115ca2c50] [sc=0x11687ea40]< HTMLScroll(div)(-1)@0x11687f6b0 {180,240,7380,690} [state=0002000000084409] [content=0x11688c0c0] [sc=0x11687eb00]< Block(div)(-1)@0x11687fcb8 {0,0,7380,690} [state=0002100000d04601] [content=0x11688c0c0] [sc=0x11687f990:-moz-scrolled-content]< line 0x116899130: count=1 state=inline,clean,prevmarginclean,not impacted,not wrapped,before:nobr,after:nobr[0x100] {60,0,0,690} vis-overflow=60,510,0,0 scr-overflow=60,510,0,0 < Text(0)""@0x1168990c0 {60,510,0,0} [state=0001000020404000] [content=0x11687ca10] [sc=0x11687fd88:-moz-non-element,parent=0x11687eb00] [run=0x115115e80][0,0,T] ... * js Dumps the current JS stack. (lldb) js 0 anonymous(aForce = false) ["chrome://browser/content/browser.js":13414] this = [object Object] 1 updateAppearance() ["chrome://browser/content/browser.js":13326] this = [object Object] 2 handleEvent(aEvent = [object Event]) ["chrome://browser/content/tabbrowser.xml":3811] this = [object XULElement] * prefcnt EXPR Shows the refcount of a given object. EXPR is an expression that is evaluated, and can be either a pointer to or an actual refcounted object. The object can be a standard nsISupports-like refcounted object, a cycle-collected object or a mozilla::RefCounted<T> object. (lldb) p this (nsHTMLDocument *) $1 = 0x0000000116e9d800 (lldb) prefcnt this 20 (lldb) p mDocumentURI (nsCOMPtr<nsIURI>) $3 = { mRawPtr = 0x0000000117163e50 } (lldb) prefcnt mDocumentURI 11 * pstate EXPR Shows the frame state bits (using their symbolic names) of a given frame. EXPR is an expression that is evaluated, and must be an nsIFrame*. (lldb) p this (nsTextFrame *) $1 = 0x000000011f470b10 (lldb) p/x mState (nsFrameState) $2 = 0x0000004080604000 (lldb) pstate this TEXT_HAS_NONCOLLAPSED_CHARACTERS | TEXT_END_OF_LINE | TEXT_START_OF_LINE | NS_FRAME_PAINTED_THEBES | NS_FRAME_INDEPENDENT_SELECTION * ptag EXPR Shows the DOM tag name of a node. EXPR is an expression that is evaluated, and can be either an nsINode pointer or a concrete DOM object. (lldb) p this (nsHTMLDocument *) $0 = 0x0000000116e9d800 (lldb) ptag this (PermanentAtomImpl *) $1 = 0x0000000110133ac0 u"#document" (lldb) p this->GetRootElement() (mozilla::dom::HTMLSharedElement *) $2 = 0x0000000118429780 (lldb) ptag $2 (PermanentAtomImpl *) $3 = 0x0000000110123b80 u"html" Supported type summaries and synthetic children ----------------------------------------------- In lldb terminology, type summaries are rules for how to display a value when using the "expression" command (or its familiar-to-gdb-users "p" alias), and synthetic children are fake member variables or array elements also added by custom rules. For objects that do have synthetic children defined for them, like nsTArray, the "expr -R -- EXPR" command can be used to show its actual member variables. * nsAString, nsACString, nsFixedString, nsFixedCString, nsAutoString, nsAutoCString Strings have a type summary that shows the actual string. (lldb) frame info frame #0: 0x000000010400cfea XUL`nsCSSParser::ParseProperty(this=0x00007fff5fbf5248, aPropID=eCSSProperty_margin_top, aPropValue=0x00007fff5fbf53f8, aSheetURI=0x0000000115ae8c00, aBaseURI=0x0000000115ae8c00, aSheetPrincipal=0x000000010ff9e040, aDeclaration=0x00000001826fd580, aChanged=0x00007fff5fbf5247, aIsImportant=false, aIsSVGMode=false) + 74 at nsCSSParser.cpp:12851 (lldb) p aPropValue (const nsAString_internal) $16 = u"-25px" (lldb) p this (nsHTMLDocument *) $18 = 0x0000000115b56000 (lldb) p mContentType (nsCString) $19 = { nsACString_internal = "text/html" } * nscolor nscolors (32-bit RGBA colors) have a type summary that shows the color as one of the CSS 2.1 color keywords, a six digit hex color, an rgba() color, or the "transparent" keyword. (lldb) p this (nsTextFrame *) $0 = 0x00000001168245e0 (lldb) p *this->StyleColor() (const nsStyleColor) $1 = { mColor = lime } (lldb) expr -R -- *this->StyleColor() (const nsStyleColor) $2 = { mColor = 4278255360 } * nsIAtom Atoms have a type summary that shows the string value inside the atom. (lldb) frame info frame #0: 0x00000001028b8c49 XUL`mozilla::dom::Element::GetBoolAttr(this=0x0000000115ca1c50, aAttr=0x000000011012a640) const + 25 at Element.h:907 (lldb) p aAttr (PermanentAtomImpl *) $1 = 0x000000011012a640 u"readonly" * nsTArray and friends nsTArrays and their auto and fallible varieties have synthetic children for their elements. This means when displaying them with "expr" (or "p"), they will be shown like regular arrays, rather than showing the mHdr and other fields. (lldb) frame info frame #0: 0x00000001043eb8a8 XUL`SVGTextFrame::DoGlyphPositioning(this=0x000000012f3f8778) + 248 at SVGTextFrame.cpp:4940 (lldb) p charPositions (nsTArray<nsPoint>) $5 = { [0] = { mozilla::gfx::BasePoint<int, nsPoint> = { x = 0 y = 816 } } [1] = { mozilla::gfx::BasePoint<int, nsPoint> = { x = 426 y = 816 } } [2] = { mozilla::gfx::BasePoint<int, nsPoint> = { x = 906 y = 816 } } } (lldb) expr -R -- charPositions (nsTArray<nsPoint>) $4 = { nsTArray_Impl<nsPoint, nsTArrayInfallibleAllocator> = { nsTArray_base<nsTArrayInfallibleAllocator, nsTArray_CopyWithMemutils> = { mHdr = 0x000000012f3f1b80 } } } * nsTextNode, nsTextFragment Text nodes have a type summary that shows the nsTextFragment in the nsTextNode, which itself has a type summary that shows the text content. (lldb) p this (nsTextFrame *) $14 = 0x000000011811bb10 (lldb) p mContent (nsTextNode *) $15 = 0x0000000118130110 "Search or enter address"