// dear imgui, v1.91.5 // (tables and columns code) /* Index of this file: // [SECTION] Commentary // [SECTION] Header mess // [SECTION] Tables: Main code // [SECTION] Tables: Simple accessors // [SECTION] Tables: Row changes // [SECTION] Tables: Columns changes // [SECTION] Tables: Columns width management // [SECTION] Tables: Drawing // [SECTION] Tables: Sorting // [SECTION] Tables: Headers // [SECTION] Tables: Context Menu // [SECTION] Tables: Settings (.ini data) // [SECTION] Tables: Garbage Collection // [SECTION] Tables: Debugging // [SECTION] Columns, BeginColumns, EndColumns, etc. */ // Navigating this file: // - In Visual Studio: CTRL+comma ("Edit.GoToAll") can follow symbols inside comments, whereas CTRL+F12 ("Edit.GoToImplementation") cannot. // - In Visual Studio w/ Visual Assist installed: ALT+G ("VAssistX.GoToImplementation") can also follow symbols inside comments. // - In VS Code, CLion, etc.: CTRL+click can follow symbols inside comments. //----------------------------------------------------------------------------- // [SECTION] Commentary //----------------------------------------------------------------------------- //----------------------------------------------------------------------------- // Typical tables call flow: (root level is generally public API): //----------------------------------------------------------------------------- // - BeginTable() user begin into a table // | BeginChild() - (if ScrollX/ScrollY is set) // | TableBeginInitMemory() - first time table is used // | TableResetSettings() - on settings reset // | TableLoadSettings() - on settings load // | TableBeginApplyRequests() - apply queued resizing/reordering/hiding requests // | - TableSetColumnWidth() - apply resizing width (for mouse resize, often requested by previous frame) // | - TableUpdateColumnsWeightFromWidth()- recompute columns weights (of stretch columns) from their respective width // - TableSetupColumn() user submit columns details (optional) // - TableSetupScrollFreeze() user submit scroll freeze information (optional) //----------------------------------------------------------------------------- // - TableUpdateLayout() [Internal] followup to BeginTable(): setup everything: widths, columns positions, clipping rectangles. Automatically called by the FIRST call to TableNextRow() or TableHeadersRow(). // | TableSetupDrawChannels() - setup ImDrawList channels // | TableUpdateBorders() - detect hovering columns for resize, ahead of contents submission // | TableBeginContextMenuPopup() // | - TableDrawDefaultContextMenu() - draw right-click context menu contents //----------------------------------------------------------------------------- // - TableHeadersRow() or TableHeader() user submit a headers row (optional) // | TableSortSpecsClickColumn() - when left-clicked: alter sort order and sort direction // | TableOpenContextMenu() - when right-clicked: trigger opening of the default context menu // - TableGetSortSpecs() user queries updated sort specs (optional, generally after submitting headers) // - TableNextRow() user begin into a new row (also automatically called by TableHeadersRow()) // | TableEndRow() - finish existing row // | TableBeginRow() - add a new row // - TableSetColumnIndex() / TableNextColumn() user begin into a cell // | TableEndCell() - close existing column/cell // | TableBeginCell() - enter into current column/cell // - [...] user emit contents //----------------------------------------------------------------------------- // - EndTable() user ends the table // | TableDrawBorders() - draw outer borders, inner vertical borders // | TableMergeDrawChannels() - merge draw channels if clipping isn't required // | EndChild() - (if ScrollX/ScrollY is set) //----------------------------------------------------------------------------- //----------------------------------------------------------------------------- // TABLE SIZING //----------------------------------------------------------------------------- // (Read carefully because this is subtle but it does make sense!) //----------------------------------------------------------------------------- // About 'outer_size': // Its meaning needs to differ slightly depending on if we are using ScrollX/ScrollY flags. // Default value is ImVec2(0.0f, 0.0f). // X // - outer_size.x <= 0.0f -> Right-align from window/work-rect right-most edge. With -FLT_MIN or 0.0f will align exactly on right-most edge. // - outer_size.x > 0.0f -> Set Fixed width. // Y with ScrollX/ScrollY disabled: we output table directly in current window // - outer_size.y < 0.0f -> Bottom-align (but will auto extend, unless _NoHostExtendY is set). Not meaningful if parent window can vertically scroll. // - outer_size.y = 0.0f -> No minimum height (but will auto extend, unless _NoHostExtendY is set) // - outer_size.y > 0.0f -> Set Minimum height (but will auto extend, unless _NoHostExtendY is set) // Y with ScrollX/ScrollY enabled: using a child window for scrolling // - outer_size.y < 0.0f -> Bottom-align. Not meaningful if parent window can vertically scroll. // - outer_size.y = 0.0f -> Bottom-align, consistent with BeginChild(). Not recommended unless table is last item in parent window. // - outer_size.y > 0.0f -> Set Exact height. Recommended when using Scrolling on any axis. //----------------------------------------------------------------------------- // Outer size is also affected by the NoHostExtendX/NoHostExtendY flags. // Important to note how the two flags have slightly different behaviors! // - ImGuiTableFlags_NoHostExtendX -> Make outer width auto-fit to columns (overriding outer_size.x value). Only available when ScrollX/ScrollY are disabled and Stretch columns are not used. // - ImGuiTableFlags_NoHostExtendY -> Make outer height stop exactly at outer_size.y (prevent auto-extending table past the limit). Only available when ScrollX/ScrollY is disabled. Data below the limit will be clipped and not visible. // In theory ImGuiTableFlags_NoHostExtendY could be the default and any non-scrolling tables with outer_size.y != 0.0f would use exact height. // This would be consistent but perhaps less useful and more confusing (as vertically clipped items are not useful and not easily noticeable). //----------------------------------------------------------------------------- // About 'inner_width': // With ScrollX disabled: // - inner_width -> *ignored* // With ScrollX enabled: // - inner_width < 0.0f -> *illegal* fit in known width (right align from outer_size.x) <-- weird // - inner_width = 0.0f -> fit in outer_width: Fixed size columns will take space they need (if avail, otherwise shrink down), Stretch columns becomes Fixed columns. // - inner_width > 0.0f -> override scrolling width, generally to be larger than outer_size.x. Fixed column take space they need (if avail, otherwise shrink down), Stretch columns share remaining space! //----------------------------------------------------------------------------- // Details: // - If you want to use Stretch columns with ScrollX, you generally need to specify 'inner_width' otherwise the concept // of "available space" doesn't make sense. // - Even if not really useful, we allow 'inner_width < outer_size.x' for consistency and to facilitate understanding // of what the value does. //----------------------------------------------------------------------------- //----------------------------------------------------------------------------- // COLUMNS SIZING POLICIES // (Reference: ImGuiTableFlags_SizingXXX flags and ImGuiTableColumnFlags_WidthXXX flags) //----------------------------------------------------------------------------- // About overriding column sizing policy and width/weight with TableSetupColumn(): // We use a default parameter of -1 for 'init_width'/'init_weight'. // - with ImGuiTableColumnFlags_WidthFixed, init_width <= 0 (default) --> width is automatic // - with ImGuiTableColumnFlags_WidthFixed, init_width > 0 (explicit) --> width is custom // - with ImGuiTableColumnFlags_WidthStretch, init_weight <= 0 (default) --> weight is 1.0f // - with ImGuiTableColumnFlags_WidthStretch, init_weight > 0 (explicit) --> weight is custom // Widths are specified _without_ CellPadding. If you specify a width of 100.0f, the column will be cover (100.0f + Padding * 2.0f) // and you can fit a 100.0f wide item in it without clipping and with padding honored. //----------------------------------------------------------------------------- // About default sizing policy (if you don't specify a ImGuiTableColumnFlags_WidthXXXX flag) // - with Table policy ImGuiTableFlags_SizingFixedFit --> default Column policy is ImGuiTableColumnFlags_WidthFixed, default Width is equal to contents width // - with Table policy ImGuiTableFlags_SizingFixedSame --> default Column policy is ImGuiTableColumnFlags_WidthFixed, default Width is max of all contents width // - with Table policy ImGuiTableFlags_SizingStretchSame --> default Column policy is ImGuiTableColumnFlags_WidthStretch, default Weight is 1.0f // - with Table policy ImGuiTableFlags_SizingStretchWeight --> default Column policy is ImGuiTableColumnFlags_WidthStretch, default Weight is proportional to contents // Default Width and default Weight can be overridden when calling TableSetupColumn(). //----------------------------------------------------------------------------- // About mixing Fixed/Auto and Stretch columns together: // - the typical use of mixing sizing policies is: any number of LEADING Fixed columns, followed by one or two TRAILING Stretch columns. // - using mixed policies with ScrollX does not make much sense, as using Stretch columns with ScrollX does not make much sense in the first place! // that is, unless 'inner_width' is passed to BeginTable() to explicitly provide a total width to layout columns in. // - when using ImGuiTableFlags_SizingFixedSame with mixed columns, only the Fixed/Auto columns will match their widths to the width of the maximum contents. // - when using ImGuiTableFlags_SizingStretchSame with mixed columns, only the Stretch columns will match their weights/widths. //----------------------------------------------------------------------------- // About using column width: // If a column is manually resizable or has a width specified with TableSetupColumn(): // - you may use GetContentRegionAvail().x to query the width available in a given column. // - right-side alignment features such as SetNextItemWidth(-x) or PushItemWidth(-x) will rely on this width. // If the column is not resizable and has no width specified with TableSetupColumn(): // - its width will be automatic and be set to the max of items submitted. // - therefore you generally cannot have ALL items of the columns use e.g. SetNextItemWidth(-FLT_MIN). // - but if the column has one or more items of known/fixed size, this will become the reference width used by SetNextItemWidth(-FLT_MIN). //----------------------------------------------------------------------------- //----------------------------------------------------------------------------- // TABLES CLIPPING/CULLING //----------------------------------------------------------------------------- // About clipping/culling of Rows in Tables: // - For large numbers of rows, it is recommended you use ImGuiListClipper to submit only visible rows. // ImGuiListClipper is reliant on the fact that rows are of equal height. // See 'Demo->Tables->Vertical Scrolling' or 'Demo->Tables->Advanced' for a demo of using the clipper. // - Note that auto-resizing columns don't play well with using the clipper. // By default a table with _ScrollX but without _Resizable will have column auto-resize. // So, if you want to use the clipper, make sure to either enable _Resizable, either setup columns width explicitly with _WidthFixed. //----------------------------------------------------------------------------- // About clipping/culling of Columns in Tables: // - Both TableSetColumnIndex() and TableNextColumn() return true when the column is visible or performing // width measurements. Otherwise, you may skip submitting the contents of a cell/column, BUT ONLY if you know // it is not going to contribute to row height. // In many situations, you may skip submitting contents for every column but one (e.g. the first one). // - Case A: column is not hidden by user, and at least partially in sight (most common case). // - Case B: column is clipped / out of sight (because of scrolling or parent ClipRect): TableNextColumn() return false as a hint but we still allow layout output. // - Case C: column is hidden explicitly by the user (e.g. via the context menu, or _DefaultHide column flag, etc.). // // [A] [B] [C] // TableNextColumn(): true false false -> [userland] when TableNextColumn() / TableSetColumnIndex() returns false, user can skip submitting items but only if the column doesn't contribute to row height. // SkipItems: false false true -> [internal] when SkipItems is true, most widgets will early out if submitted, resulting is no layout output. // ClipRect: normal zero-width zero-width -> [internal] when ClipRect is zero, ItemAdd() will return false and most widgets will early out mid-way. // ImDrawList output: normal dummy dummy -> [internal] when using the dummy channel, ImDrawList submissions (if any) will be wasted (because cliprect is zero-width anyway). // // - We need to distinguish those cases because non-hidden columns that are clipped outside of scrolling bounds should still contribute their height to the row. // However, in the majority of cases, the contribution to row height is the same for all columns, or the tallest cells are known by the programmer. //----------------------------------------------------------------------------- // About clipping/culling of whole Tables: // - Scrolling tables with a known outer size can be clipped earlier as BeginTable() will return false. //----------------------------------------------------------------------------- //----------------------------------------------------------------------------- // [SECTION] Header mess //----------------------------------------------------------------------------- #if defined(_MSC_VER) && !defined(_CRT_SECURE_NO_WARNINGS) #define _CRT_SECURE_NO_WARNINGS #endif #ifndef IMGUI_DEFINE_MATH_OPERATORS #define IMGUI_DEFINE_MATH_OPERATORS #endif #include "imgui.h" #ifndef IMGUI_DISABLE #include "imgui_internal.h" // System includes #include // intptr_t // Visual Studio warnings #ifdef _MSC_VER #pragma warning (disable: 4127) // condition expression is constant #pragma warning (disable: 4996) // 'This function or variable may be unsafe': strcpy, strdup, sprintf, vsnprintf, sscanf, fopen #if defined(_MSC_VER) && _MSC_VER >= 1922 // MSVC 2019 16.2 or later #pragma warning (disable: 5054) // operator '|': deprecated between enumerations of different types #endif #pragma warning (disable: 26451) // [Static Analyzer] Arithmetic overflow : Using operator 'xxx' on a 4 byte value and then casting the result to a 8 byte value. Cast the value to the wider type before calling operator 'xxx' to avoid overflow(io.2). #pragma warning (disable: 26812) // [Static Analyzer] The enum type 'xxx' is unscoped. Prefer 'enum class' over 'enum' (Enum.3). #endif // Clang/GCC warnings with -Weverything #if defined(__clang__) #if __has_warning("-Wunknown-warning-option") #pragma clang diagnostic ignored "-Wunknown-warning-option" // warning: unknown warning group 'xxx' // not all warnings are known by all Clang versions and they tend to be rename-happy.. so ignoring warnings triggers new warnings on some configuration. Great! #endif #pragma clang diagnostic ignored "-Wunknown-pragmas" // warning: unknown warning group 'xxx' #pragma clang diagnostic ignored "-Wold-style-cast" // warning: use of old-style cast // yes, they are more terse. #pragma clang diagnostic ignored "-Wfloat-equal" // warning: comparing floating point with == or != is unsafe // storing and comparing against same constants (typically 0.0f) is ok. #pragma clang diagnostic ignored "-Wformat-nonliteral" // warning: format string is not a string literal // passing non-literal to vsnformat(). yes, user passing incorrect format strings can crash the code. #pragma clang diagnostic ignored "-Wsign-conversion" // warning: implicit conversion changes signedness #pragma clang diagnostic ignored "-Wzero-as-null-pointer-constant" // warning: zero as null pointer constant // some standard header variations use #define NULL 0 #pragma clang diagnostic ignored "-Wdouble-promotion" // warning: implicit conversion from 'float' to 'double' when passing argument to function // using printf() is a misery with this as C++ va_arg ellipsis changes float to double. #pragma clang diagnostic ignored "-Wenum-enum-conversion" // warning: bitwise operation between different enumeration types ('XXXFlags_' and 'XXXFlagsPrivate_') #pragma clang diagnostic ignored "-Wdeprecated-enum-enum-conversion"// warning: bitwise operation between different enumeration types ('XXXFlags_' and 'XXXFlagsPrivate_') is deprecated #pragma clang diagnostic ignored "-Wimplicit-int-float-conversion" // warning: implicit conversion from 'xxx' to 'float' may lose precision #pragma clang diagnostic ignored "-Wunsafe-buffer-usage" // warning: 'xxx' is an unsafe pointer used for buffer access #pragma clang diagnostic ignored "-Wnontrivial-memaccess" // warning: first argument in call to 'memset' is a pointer to non-trivially copyable type #elif defined(__GNUC__) #pragma GCC diagnostic ignored "-Wpragmas" // warning: unknown option after '#pragma GCC diagnostic' kind #pragma GCC diagnostic ignored "-Wformat-nonliteral" // warning: format not a string literal, format string not checked #pragma GCC diagnostic ignored "-Wclass-memaccess" // [__GNUC__ >= 8] warning: 'memset/memcpy' clearing/writing an object of type 'xxxx' with no trivial copy-assignment; use assignment or value-initialization instead #endif //----------------------------------------------------------------------------- // [SECTION] Tables: Main code //----------------------------------------------------------------------------- // - TableFixFlags() [Internal] // - TableFindByID() [Internal] // - BeginTable() // - BeginTableEx() [Internal] // - TableBeginInitMemory() [Internal] // - TableBeginApplyRequests() [Internal] // - TableSetupColumnFlags() [Internal] // - TableUpdateLayout() [Internal] // - TableUpdateBorders() [Internal] // - EndTable() // - TableSetupColumn() // - TableSetupScrollFreeze() //----------------------------------------------------------------------------- // Configuration static const int TABLE_DRAW_CHANNEL_BG0 = 0; static const int TABLE_DRAW_CHANNEL_BG2_FROZEN = 1; static const int TABLE_DRAW_CHANNEL_NOCLIP = 2; // When using ImGuiTableFlags_NoClip (this becomes the last visible channel) static const float TABLE_BORDER_SIZE = 1.0f; // FIXME-TABLE: Currently hard-coded because of clipping assumptions with outer borders rendering. static const float TABLE_RESIZE_SEPARATOR_HALF_THICKNESS = 4.0f; // Extend outside inner borders. static const float TABLE_RESIZE_SEPARATOR_FEEDBACK_TIMER = 0.06f; // Delay/timer before making the hover feedback (color+cursor) visible because tables/columns tends to be more cramped. // Helper inline ImGuiTableFlags TableFixFlags(ImGuiTableFlags flags, ImGuiWindow* outer_window) { // Adjust flags: set default sizing policy if ((flags & ImGuiTableFlags_SizingMask_) == 0) flags |= ((flags & ImGuiTableFlags_ScrollX) || (outer_window->Flags & ImGuiWindowFlags_AlwaysAutoResize)) ? ImGuiTableFlags_SizingFixedFit : ImGuiTableFlags_SizingStretchSame; // Adjust flags: enable NoKeepColumnsVisible when using ImGuiTableFlags_SizingFixedSame if ((flags & ImGuiTableFlags_SizingMask_) == ImGuiTableFlags_SizingFixedSame) flags |= ImGuiTableFlags_NoKeepColumnsVisible; // Adjust flags: enforce borders when resizable if (flags & ImGuiTableFlags_Resizable) flags |= ImGuiTableFlags_BordersInnerV; // Adjust flags: disable NoHostExtendX/NoHostExtendY if we have any scrolling going on if (flags & (ImGuiTableFlags_ScrollX | ImGuiTableFlags_ScrollY)) flags &= ~(ImGuiTableFlags_NoHostExtendX | ImGuiTableFlags_NoHostExtendY); // Adjust flags: NoBordersInBodyUntilResize takes priority over NoBordersInBody if (flags & ImGuiTableFlags_NoBordersInBodyUntilResize) flags &= ~ImGuiTableFlags_NoBordersInBody; // Adjust flags: disable saved settings if there's nothing to save if ((flags & (ImGuiTableFlags_Resizable | ImGuiTableFlags_Hideable | ImGuiTableFlags_Reorderable | ImGuiTableFlags_Sortable)) == 0) flags |= ImGuiTableFlags_NoSavedSettings; // Inherit _NoSavedSettings from top-level window (child windows always have _NoSavedSettings set) if (outer_window->RootWindow->Flags & ImGuiWindowFlags_NoSavedSettings) flags |= ImGuiTableFlags_NoSavedSettings; return flags; } ImGuiTable* ImGui::TableFindByID(ImGuiID id) { ImGuiContext& g = *GImGui; return g.Tables.GetByKey(id); } // Read about "TABLE SIZING" at the top of this file. bool ImGui::BeginTable(const char* str_id, int columns_count, ImGuiTableFlags flags, const ImVec2& outer_size, float inner_width) { ImGuiID id = GetID(str_id); return BeginTableEx(str_id, id, columns_count, flags, outer_size, inner_width); } bool ImGui::BeginTableEx(const char* name, ImGuiID id, int columns_count, ImGuiTableFlags flags, const ImVec2& outer_size, float inner_width) { ImGuiContext& g = *GImGui; ImGuiWindow* outer_window = GetCurrentWindow(); if (outer_window->SkipItems) // Consistent with other tables + beneficial side effect that assert on miscalling EndTable() will be more visible. return false; // Sanity checks IM_ASSERT(columns_count > 0 && columns_count < IMGUI_TABLE_MAX_COLUMNS); if (flags & ImGuiTableFlags_ScrollX) IM_ASSERT(inner_width >= 0.0f); // If an outer size is specified ahead we will be able to early out when not visible. Exact clipping criteria may evolve. // FIXME: coarse clipping because access to table data causes two issues: // - instance numbers varying/unstable. may not be a direct problem for users, but could make outside access broken or confusing, e.g. TestEngine. // - can't implement support for ImGuiChildFlags_ResizeY as we need to somehow pull the height data from somewhere. this also needs stable instance numbers. // The side-effects of accessing table data on coarse clip would be: // - always reserving the pooled ImGuiTable data ahead for a fully clipped table (minor IMHO). Also the 'outer_window_is_measuring_size' criteria may already be defeating this in some situations. // - always performing the GetOrAddByKey() O(log N) query in g.Tables.Map[]. const bool use_child_window = (flags & (ImGuiTableFlags_ScrollX | ImGuiTableFlags_ScrollY)) != 0; const ImVec2 avail_size = GetContentRegionAvail(); const ImVec2 actual_outer_size = ImTrunc(CalcItemSize(outer_size, ImMax(avail_size.x, 1.0f), use_child_window ? ImMax(avail_size.y, 1.0f) : 0.0f)); const ImRect outer_rect(outer_window->DC.CursorPos, outer_window->DC.CursorPos + actual_outer_size); const bool outer_window_is_measuring_size = (outer_window->AutoFitFramesX > 0) || (outer_window->AutoFitFramesY > 0); // Doesn't apply to AlwaysAutoResize windows! if (use_child_window && IsClippedEx(outer_rect, 0) && !outer_window_is_measuring_size) { ItemSize(outer_rect); ItemAdd(outer_rect, id); return false; } // [DEBUG] Debug break requested by user if (g.DebugBreakInTable == id) IM_DEBUG_BREAK(); // Acquire storage for the table ImGuiTable* table = g.Tables.GetOrAddByKey(id); // Acquire temporary buffers const int table_idx = g.Tables.GetIndex(table); if (++g.TablesTempDataStacked > g.TablesTempData.Size) g.TablesTempData.resize(g.TablesTempDataStacked, ImGuiTableTempData()); ImGuiTableTempData* temp_data = table->TempData = &g.TablesTempData[g.TablesTempDataStacked - 1]; temp_data->TableIndex = table_idx; table->DrawSplitter = &table->TempData->DrawSplitter; table->DrawSplitter->Clear(); // Fix flags table->IsDefaultSizingPolicy = (flags & ImGuiTableFlags_SizingMask_) == 0; flags = TableFixFlags(flags, outer_window); // Initialize const int previous_frame_active = table->LastFrameActive; const int instance_no = (previous_frame_active != g.FrameCount) ? 0 : table->InstanceCurrent + 1; const ImGuiTableFlags previous_flags = table->Flags; table->ID = id; table->Flags = flags; table->LastFrameActive = g.FrameCount; table->OuterWindow = table->InnerWindow = outer_window; table->ColumnsCount = columns_count; table->IsLayoutLocked = false; table->InnerWidth = inner_width; temp_data->UserOuterSize = outer_size; // Instance data (for instance 0, TableID == TableInstanceID) ImGuiID instance_id; table->InstanceCurrent = (ImS16)instance_no; if (instance_no > 0) { IM_ASSERT(table->ColumnsCount == columns_count && "BeginTable(): Cannot change columns count mid-frame while preserving same ID"); if (table->InstanceDataExtra.Size < instance_no) table->InstanceDataExtra.push_back(ImGuiTableInstanceData()); instance_id = GetIDWithSeed(instance_no, GetIDWithSeed("##Instances", NULL, id)); // Push "##Instances" followed by (int)instance_no in ID stack. } else { instance_id = id; } ImGuiTableInstanceData* table_instance = TableGetInstanceData(table, table->InstanceCurrent); table_instance->TableInstanceID = instance_id; // When not using a child window, WorkRect.Max will grow as we append contents. if (use_child_window) { // Ensure no vertical scrollbar appears if we only want horizontal one, to make flag consistent // (we have no other way to disable vertical scrollbar of a window while keeping the horizontal one showing) ImVec2 override_content_size(FLT_MAX, FLT_MAX); if ((flags & ImGuiTableFlags_ScrollX) && !(flags & ImGuiTableFlags_ScrollY)) override_content_size.y = FLT_MIN; // Ensure specified width (when not specified, Stretched columns will act as if the width == OuterWidth and // never lead to any scrolling). We don't handle inner_width < 0.0f, we could potentially use it to right-align // based on the right side of the child window work rect, which would require knowing ahead if we are going to // have decoration taking horizontal spaces (typically a vertical scrollbar). if ((flags & ImGuiTableFlags_ScrollX) && inner_width > 0.0f) override_content_size.x = inner_width; if (override_content_size.x != FLT_MAX || override_content_size.y != FLT_MAX) SetNextWindowContentSize(ImVec2(override_content_size.x != FLT_MAX ? override_content_size.x : 0.0f, override_content_size.y != FLT_MAX ? override_content_size.y : 0.0f)); // Reset scroll if we are reactivating it if ((previous_flags & (ImGuiTableFlags_ScrollX | ImGuiTableFlags_ScrollY)) == 0) SetNextWindowScroll(ImVec2(0.0f, 0.0f)); // Create scrolling region (without border and zero window padding) ImGuiWindowFlags child_window_flags = (flags & ImGuiTableFlags_ScrollX) ? ImGuiWindowFlags_HorizontalScrollbar : ImGuiWindowFlags_None; BeginChildEx(name, instance_id, outer_rect.GetSize(), ImGuiChildFlags_None, child_window_flags); table->InnerWindow = g.CurrentWindow; table->WorkRect = table->InnerWindow->WorkRect; table->OuterRect = table->InnerWindow->Rect(); table->InnerRect = table->InnerWindow->InnerRect; IM_ASSERT(table->InnerWindow->WindowPadding.x == 0.0f && table->InnerWindow->WindowPadding.y == 0.0f && table->InnerWindow->WindowBorderSize == 0.0f); // Allow submitting when host is measuring if (table->InnerWindow->SkipItems && outer_window_is_measuring_size) table->InnerWindow->SkipItems = false; // When using multiple instances, ensure they have the same amount of horizontal decorations (aka vertical scrollbar) so stretched columns can be aligned) if (instance_no == 0) { table->HasScrollbarYPrev = table->HasScrollbarYCurr; table->HasScrollbarYCurr = false; } table->HasScrollbarYCurr |= table->InnerWindow->ScrollbarY; } else { // For non-scrolling tables, WorkRect == OuterRect == InnerRect. // But at this point we do NOT have a correct value for .Max.y (unless a height has been explicitly passed in). It will only be updated in EndTable(). table->WorkRect = table->OuterRect = table->InnerRect = outer_rect; table->HasScrollbarYPrev = table->HasScrollbarYCurr = false; } // Push a standardized ID for both child-using and not-child-using tables PushOverrideID(id); if (instance_no > 0) PushOverrideID(instance_id); // FIXME: Somehow this is not resolved by stack-tool, even tho GetIDWithSeed() submitted the symbol. // Backup a copy of host window members we will modify ImGuiWindow* inner_window = table->InnerWindow; table->HostIndentX = inner_window->DC.Indent.x; table->HostClipRect = inner_window->ClipRect; table->HostSkipItems = inner_window->SkipItems; temp_data->HostBackupWorkRect = inner_window->WorkRect; temp_data->HostBackupParentWorkRect = inner_window->ParentWorkRect; temp_data->HostBackupColumnsOffset = outer_window->DC.ColumnsOffset; temp_data->HostBackupPrevLineSize = inner_window->DC.PrevLineSize; temp_data->HostBackupCurrLineSize = inner_window->DC.CurrLineSize; temp_data->HostBackupCursorMaxPos = inner_window->DC.CursorMaxPos; temp_data->HostBackupItemWidth = outer_window->DC.ItemWidth; temp_data->HostBackupItemWidthStackSize = outer_window->DC.ItemWidthStack.Size; inner_window->DC.PrevLineSize = inner_window->DC.CurrLineSize = ImVec2(0.0f, 0.0f); // Make borders not overlap our contents by offsetting HostClipRect (#6765, #7428, #3752) // (we normally shouldn't alter HostClipRect as we rely on TableMergeDrawChannels() expanding non-clipped column toward the // limits of that rectangle, in order for ImDrawListSplitter::Merge() to merge the draw commands. However since the overlap // problem only affect scrolling tables in this case we can get away with doing it without extra cost). if (inner_window != outer_window) { // FIXME: Because inner_window's Scrollbar doesn't know about border size, since it's not encoded in window->WindowBorderSize, // it already overlaps it and doesn't need an extra offset. Ideally we should be able to pass custom border size with // different x/y values to BeginChild(). if (flags & ImGuiTableFlags_BordersOuterV) { table->HostClipRect.Min.x = ImMin(table->HostClipRect.Min.x + TABLE_BORDER_SIZE, table->HostClipRect.Max.x); if (inner_window->DecoOuterSizeX2 == 0.0f) table->HostClipRect.Max.x = ImMax(table->HostClipRect.Max.x - TABLE_BORDER_SIZE, table->HostClipRect.Min.x); } if (flags & ImGuiTableFlags_BordersOuterH) { table->HostClipRect.Min.y = ImMin(table->HostClipRect.Min.y + TABLE_BORDER_SIZE, table->HostClipRect.Max.y); if (inner_window->DecoOuterSizeY2 == 0.0f) table->HostClipRect.Max.y = ImMax(table->HostClipRect.Max.y - TABLE_BORDER_SIZE, table->HostClipRect.Min.y); } } // Padding and Spacing // - None ........Content..... Pad .....Content........ // - PadOuter | Pad ..Content..... Pad .....Content.. Pad | // - PadInner ........Content.. Pad | Pad ..Content........ // - PadOuter+PadInner | Pad ..Content.. Pad | Pad ..Content.. Pad | const bool pad_outer_x = (flags & ImGuiTableFlags_NoPadOuterX) ? false : (flags & ImGuiTableFlags_PadOuterX) ? true : (flags & ImGuiTableFlags_BordersOuterV) != 0; const bool pad_inner_x = (flags & ImGuiTableFlags_NoPadInnerX) ? false : true; const float inner_spacing_for_border = (flags & ImGuiTableFlags_BordersInnerV) ? TABLE_BORDER_SIZE : 0.0f; const float inner_spacing_explicit = (pad_inner_x && (flags & ImGuiTableFlags_BordersInnerV) == 0) ? g.Style.CellPadding.x : 0.0f; const float inner_padding_explicit = (pad_inner_x && (flags & ImGuiTableFlags_BordersInnerV) != 0) ? g.Style.CellPadding.x : 0.0f; table->CellSpacingX1 = inner_spacing_explicit + inner_spacing_for_border; table->CellSpacingX2 = inner_spacing_explicit; table->CellPaddingX = inner_padding_explicit; const float outer_padding_for_border = (flags & ImGuiTableFlags_BordersOuterV) ? TABLE_BORDER_SIZE : 0.0f; const float outer_padding_explicit = pad_outer_x ? g.Style.CellPadding.x : 0.0f; table->OuterPaddingX = (outer_padding_for_border + outer_padding_explicit) - table->CellPaddingX; table->CurrentColumn = -1; table->CurrentRow = -1; table->RowBgColorCounter = 0; table->LastRowFlags = ImGuiTableRowFlags_None; table->InnerClipRect = (inner_window == outer_window) ? table->WorkRect : inner_window->ClipRect; table->InnerClipRect.ClipWith(table->WorkRect); // We need this to honor inner_width table->InnerClipRect.ClipWithFull(table->HostClipRect); table->InnerClipRect.Max.y = (flags & ImGuiTableFlags_NoHostExtendY) ? ImMin(table->InnerClipRect.Max.y, inner_window->WorkRect.Max.y) : table->HostClipRect.Max.y; table->RowPosY1 = table->RowPosY2 = table->WorkRect.Min.y; // This is needed somehow table->RowTextBaseline = 0.0f; // This will be cleared again by TableBeginRow() table->RowCellPaddingY = 0.0f; table->FreezeRowsRequest = table->FreezeRowsCount = 0; // This will be setup by TableSetupScrollFreeze(), if any table->FreezeColumnsRequest = table->FreezeColumnsCount = 0; table->IsUnfrozenRows = true; table->DeclColumnsCount = table->AngledHeadersCount = 0; if (previous_frame_active + 1 < g.FrameCount) table->IsActiveIdInTable = false; table->AngledHeadersHeight = 0.0f; temp_data->AngledHeadersExtraWidth = 0.0f; // Using opaque colors facilitate overlapping lines of the grid, otherwise we'd need to improve TableDrawBorders() table->BorderColorStrong = GetColorU32(ImGuiCol_TableBorderStrong); table->BorderColorLight = GetColorU32(ImGuiCol_TableBorderLight); // Make table current g.CurrentTable = table; outer_window->DC.NavIsScrollPushableX = false; // Shortcut for NavUpdateCurrentWindowIsScrollPushableX(); outer_window->DC.CurrentTableIdx = table_idx; if (inner_window != outer_window) // So EndChild() within the inner window can restore the table properly. inner_window->DC.CurrentTableIdx = table_idx; if ((previous_flags & ImGuiTableFlags_Reorderable) && (flags & ImGuiTableFlags_Reorderable) == 0) table->IsResetDisplayOrderRequest = true; // Mark as used to avoid GC if (table_idx >= g.TablesLastTimeActive.Size) g.TablesLastTimeActive.resize(table_idx + 1, -1.0f); g.TablesLastTimeActive[table_idx] = (float)g.Time; temp_data->LastTimeActive = (float)g.Time; table->MemoryCompacted = false; // Setup memory buffer (clear data if columns count changed) ImGuiTableColumn* old_columns_to_preserve = NULL; void* old_columns_raw_data = NULL; const int old_columns_count = table->Columns.size(); if (old_columns_count != 0 && old_columns_count != columns_count) { // Attempt to preserve width on column count change (#4046) old_columns_to_preserve = table->Columns.Data; old_columns_raw_data = table->RawData; table->RawData = NULL; } if (table->RawData == NULL) { TableBeginInitMemory(table, columns_count); table->IsInitializing = table->IsSettingsRequestLoad = true; } if (table->IsResetAllRequest) TableResetSettings(table); if (table->IsInitializing) { // Initialize table->SettingsOffset = -1; table->IsSortSpecsDirty = true; table->InstanceInteracted = -1; table->ContextPopupColumn = -1; table->ReorderColumn = table->ResizedColumn = table->LastResizedColumn = -1; table->AutoFitSingleColumn = -1; table->HoveredColumnBody = table->HoveredColumnBorder = -1; for (int n = 0; n < columns_count; n++) { ImGuiTableColumn* column = &table->Columns[n]; if (old_columns_to_preserve && n < old_columns_count) { // FIXME: We don't attempt to preserve column order in this path. *column = old_columns_to_preserve[n]; } else { float width_auto = column->WidthAuto; *column = ImGuiTableColumn(); column->WidthAuto = width_auto; column->IsPreserveWidthAuto = true; // Preserve WidthAuto when reinitializing a live table: not technically necessary but remove a visible flicker column->IsEnabled = column->IsUserEnabled = column->IsUserEnabledNextFrame = true; } column->DisplayOrder = table->DisplayOrderToIndex[n] = (ImGuiTableColumnIdx)n; } } if (old_columns_raw_data) IM_FREE(old_columns_raw_data); // Load settings if (table->IsSettingsRequestLoad) TableLoadSettings(table); // Handle DPI/font resize // This is designed to facilitate DPI changes with the assumption that e.g. style.CellPadding has been scaled as well. // It will also react to changing fonts with mixed results. It doesn't need to be perfect but merely provide a decent transition. // FIXME-DPI: Provide consistent standards for reference size. Perhaps using g.CurrentDpiScale would be more self explanatory. // This is will lead us to non-rounded WidthRequest in columns, which should work but is a poorly tested path. const float new_ref_scale_unit = g.FontSize; // g.Font->GetCharAdvance('A') ? if (table->RefScale != 0.0f && table->RefScale != new_ref_scale_unit) { const float scale_factor = new_ref_scale_unit / table->RefScale; //IMGUI_DEBUG_PRINT("[table] %08X RefScaleUnit %.3f -> %.3f, scaling width by %.3f\n", table->ID, table->RefScaleUnit, new_ref_scale_unit, scale_factor); for (int n = 0; n < columns_count; n++) table->Columns[n].WidthRequest = table->Columns[n].WidthRequest * scale_factor; } table->RefScale = new_ref_scale_unit; // Disable output until user calls TableNextRow() or TableNextColumn() leading to the TableUpdateLayout() call.. // This is not strictly necessary but will reduce cases were "out of table" output will be misleading to the user. // Because we cannot safely assert in EndTable() when no rows have been created, this seems like our best option. inner_window->SkipItems = true; // Clear names // At this point the ->NameOffset field of each column will be invalid until TableUpdateLayout() or the first call to TableSetupColumn() if (table->ColumnsNames.Buf.Size > 0) table->ColumnsNames.Buf.resize(0); // Apply queued resizing/reordering/hiding requests TableBeginApplyRequests(table); return true; } // For reference, the average total _allocation count_ for a table is: // + 0 (for ImGuiTable instance, we are pooling allocations in g.Tables[]) // + 1 (for table->RawData allocated below) // + 1 (for table->ColumnsNames, if names are used) // Shared allocations for the maximum number of simultaneously nested tables (generally a very small number) // + 1 (for table->Splitter._Channels) // + 2 * active_channels_count (for ImDrawCmd and ImDrawIdx buffers inside channels) // Where active_channels_count is variable but often == columns_count or == columns_count + 1, see TableSetupDrawChannels() for details. // Unused channels don't perform their +2 allocations. void ImGui::TableBeginInitMemory(ImGuiTable* table, int columns_count) { // Allocate single buffer for our arrays const int columns_bit_array_size = (int)ImBitArrayGetStorageSizeInBytes(columns_count); ImSpanAllocator<6> span_allocator; span_allocator.Reserve(0, columns_count * sizeof(ImGuiTableColumn)); span_allocator.Reserve(1, columns_count * sizeof(ImGuiTableColumnIdx)); span_allocator.Reserve(2, columns_count * sizeof(ImGuiTableCellData), 4); for (int n = 3; n < 6; n++) span_allocator.Reserve(n, columns_bit_array_size); table->RawData = IM_ALLOC(span_allocator.GetArenaSizeInBytes()); memset(table->RawData, 0, span_allocator.GetArenaSizeInBytes()); span_allocator.SetArenaBasePtr(table->RawData); span_allocator.GetSpan(0, &table->Columns); span_allocator.GetSpan(1, &table->DisplayOrderToIndex); span_allocator.GetSpan(2, &table->RowCellData); table->EnabledMaskByDisplayOrder = (ImU32*)span_allocator.GetSpanPtrBegin(3); table->EnabledMaskByIndex = (ImU32*)span_allocator.GetSpanPtrBegin(4); table->VisibleMaskByIndex = (ImU32*)span_allocator.GetSpanPtrBegin(5); } // Apply queued resizing/reordering/hiding requests void ImGui::TableBeginApplyRequests(ImGuiTable* table) { // Handle resizing request // (We process this in the TableBegin() of the first instance of each table) // FIXME-TABLE: Contains columns if our work area doesn't allow for scrolling? if (table->InstanceCurrent == 0) { if (table->ResizedColumn != -1 && table->ResizedColumnNextWidth != FLT_MAX) TableSetColumnWidth(table->ResizedColumn, table->ResizedColumnNextWidth); table->LastResizedColumn = table->ResizedColumn; table->ResizedColumnNextWidth = FLT_MAX; table->ResizedColumn = -1; // Process auto-fit for single column, which is a special case for stretch columns and fixed columns with FixedSame policy. // FIXME-TABLE: Would be nice to redistribute available stretch space accordingly to other weights, instead of giving it all to siblings. if (table->AutoFitSingleColumn != -1) { TableSetColumnWidth(table->AutoFitSingleColumn, table->Columns[table->AutoFitSingleColumn].WidthAuto); table->AutoFitSingleColumn = -1; } } // Handle reordering request // Note: we don't clear ReorderColumn after handling the request. if (table->InstanceCurrent == 0) { if (table->HeldHeaderColumn == -1 && table->ReorderColumn != -1) table->ReorderColumn = -1; table->HeldHeaderColumn = -1; if (table->ReorderColumn != -1 && table->ReorderColumnDir != 0) { // We need to handle reordering across hidden columns. // In the configuration below, moving C to the right of E will lead to: // ... C [D] E ---> ... [D] E C (Column name/index) // ... 2 3 4 ... 2 3 4 (Display order) const int reorder_dir = table->ReorderColumnDir; IM_ASSERT(reorder_dir == -1 || reorder_dir == +1); IM_ASSERT(table->Flags & ImGuiTableFlags_Reorderable); ImGuiTableColumn* src_column = &table->Columns[table->ReorderColumn]; ImGuiTableColumn* dst_column = &table->Columns[(reorder_dir == -1) ? src_column->PrevEnabledColumn : src_column->NextEnabledColumn]; IM_UNUSED(dst_column); const int src_order = src_column->DisplayOrder; const int dst_order = dst_column->DisplayOrder; src_column->DisplayOrder = (ImGuiTableColumnIdx)dst_order; for (int order_n = src_order + reorder_dir; order_n != dst_order + reorder_dir; order_n += reorder_dir) table->Columns[table->DisplayOrderToIndex[order_n]].DisplayOrder -= (ImGuiTableColumnIdx)reorder_dir; IM_ASSERT(dst_column->DisplayOrder == dst_order - reorder_dir); // Display order is stored in both columns->IndexDisplayOrder and table->DisplayOrder[]. Rebuild later from the former. for (int column_n = 0; column_n < table->ColumnsCount; column_n++) table->DisplayOrderToIndex[table->Columns[column_n].DisplayOrder] = (ImGuiTableColumnIdx)column_n; table->ReorderColumnDir = 0; table->IsSettingsDirty = true; } } // Handle display order reset request if (table->IsResetDisplayOrderRequest) { for (int n = 0; n < table->ColumnsCount; n++) table->DisplayOrderToIndex[n] = table->Columns[n].DisplayOrder = (ImGuiTableColumnIdx)n; table->IsResetDisplayOrderRequest = false; table->IsSettingsDirty = true; } } // Adjust flags: default width mode + stretch columns are not allowed when auto extending static void TableSetupColumnFlags(ImGuiTable* table, ImGuiTableColumn* column, ImGuiTableColumnFlags flags_in) { ImGuiTableColumnFlags flags = flags_in; // Sizing Policy if ((flags & ImGuiTableColumnFlags_WidthMask_) == 0) { const ImGuiTableFlags table_sizing_policy = (table->Flags & ImGuiTableFlags_SizingMask_); if (table_sizing_policy == ImGuiTableFlags_SizingFixedFit || table_sizing_policy == ImGuiTableFlags_SizingFixedSame) flags |= ImGuiTableColumnFlags_WidthFixed; else flags |= ImGuiTableColumnFlags_WidthStretch; } else { IM_ASSERT(ImIsPowerOfTwo(flags & ImGuiTableColumnFlags_WidthMask_)); // Check that only 1 of each set is used. } // Resize if ((table->Flags & ImGuiTableFlags_Resizable) == 0) flags |= ImGuiTableColumnFlags_NoResize; // Sorting if ((flags & ImGuiTableColumnFlags_NoSortAscending) && (flags & ImGuiTableColumnFlags_NoSortDescending)) flags |= ImGuiTableColumnFlags_NoSort; // Indentation if ((flags & ImGuiTableColumnFlags_IndentMask_) == 0) flags |= (table->Columns.index_from_ptr(column) == 0) ? ImGuiTableColumnFlags_IndentEnable : ImGuiTableColumnFlags_IndentDisable; // Alignment //if ((flags & ImGuiTableColumnFlags_AlignMask_) == 0) // flags |= ImGuiTableColumnFlags_AlignCenter; //IM_ASSERT(ImIsPowerOfTwo(flags & ImGuiTableColumnFlags_AlignMask_)); // Check that only 1 of each set is used. // Preserve status flags column->Flags = flags | (column->Flags & ImGuiTableColumnFlags_StatusMask_); // Build an ordered list of available sort directions column->SortDirectionsAvailCount = column->SortDirectionsAvailMask = column->SortDirectionsAvailList = 0; if (table->Flags & ImGuiTableFlags_Sortable) { int count = 0, mask = 0, list = 0; if ((flags & ImGuiTableColumnFlags_PreferSortAscending) != 0 && (flags & ImGuiTableColumnFlags_NoSortAscending) == 0) { mask |= 1 << ImGuiSortDirection_Ascending; list |= ImGuiSortDirection_Ascending << (count << 1); count++; } if ((flags & ImGuiTableColumnFlags_PreferSortDescending) != 0 && (flags & ImGuiTableColumnFlags_NoSortDescending) == 0) { mask |= 1 << ImGuiSortDirection_Descending; list |= ImGuiSortDirection_Descending << (count << 1); count++; } if ((flags & ImGuiTableColumnFlags_PreferSortAscending) == 0 && (flags & ImGuiTableColumnFlags_NoSortAscending) == 0) { mask |= 1 << ImGuiSortDirection_Ascending; list |= ImGuiSortDirection_Ascending << (count << 1); count++; } if ((flags & ImGuiTableColumnFlags_PreferSortDescending) == 0 && (flags & ImGuiTableColumnFlags_NoSortDescending) == 0) { mask |= 1 << ImGuiSortDirection_Descending; list |= ImGuiSortDirection_Descending << (count << 1); count++; } if ((table->Flags & ImGuiTableFlags_SortTristate) || count == 0) { mask |= 1 << ImGuiSortDirection_None; count++; } column->SortDirectionsAvailList = (ImU8)list; column->SortDirectionsAvailMask = (ImU8)mask; column->SortDirectionsAvailCount = (ImU8)count; ImGui::TableFixColumnSortDirection(table, column); } } // Layout columns for the frame. This is in essence the followup to BeginTable() and this is our largest function. // Runs on the first call to TableNextRow(), to give a chance for TableSetupColumn() and other TableSetupXXXXX() functions to be called first. // FIXME-TABLE: Our width (and therefore our WorkRect) will be minimal in the first frame for _WidthAuto columns. // Increase feedback side-effect with widgets relying on WorkRect.Max.x... Maybe provide a default distribution for _WidthAuto columns? void ImGui::TableUpdateLayout(ImGuiTable* table) { ImGuiContext& g = *GImGui; IM_ASSERT(table->IsLayoutLocked == false); const ImGuiTableFlags table_sizing_policy = (table->Flags & ImGuiTableFlags_SizingMask_); table->IsDefaultDisplayOrder = true; table->ColumnsEnabledCount = 0; ImBitArrayClearAllBits(table->EnabledMaskByIndex, table->ColumnsCount); ImBitArrayClearAllBits(table->EnabledMaskByDisplayOrder, table->ColumnsCount); table->LeftMostEnabledColumn = -1; table->MinColumnWidth = ImMax(1.0f, g.Style.FramePadding.x * 1.0f); // g.Style.ColumnsMinSpacing; // FIXME-TABLE // [Part 1] Apply/lock Enabled and Order states. Calculate auto/ideal width for columns. Count fixed/stretch columns. // Process columns in their visible orders as we are building the Prev/Next indices. int count_fixed = 0; // Number of columns that have fixed sizing policies int count_stretch = 0; // Number of columns that have stretch sizing policies int prev_visible_column_idx = -1; bool has_auto_fit_request = false; bool has_resizable = false; float stretch_sum_width_auto = 0.0f; float fixed_max_width_auto = 0.0f; for (int order_n = 0; order_n < table->ColumnsCount; order_n++) { const int column_n = table->DisplayOrderToIndex[order_n]; if (column_n != order_n) table->IsDefaultDisplayOrder = false; ImGuiTableColumn* column = &table->Columns[column_n]; // Clear column setup if not submitted by user. Currently we make it mandatory to call TableSetupColumn() every frame. // It would easily work without but we're not ready to guarantee it since e.g. names need resubmission anyway. // We take a slight shortcut but in theory we could be calling TableSetupColumn() here with dummy values, it should yield the same effect. if (table->DeclColumnsCount <= column_n) { TableSetupColumnFlags(table, column, ImGuiTableColumnFlags_None); column->NameOffset = -1; column->UserID = 0; column->InitStretchWeightOrWidth = -1.0f; } // Update Enabled state, mark settings and sort specs dirty if (!(table->Flags & ImGuiTableFlags_Hideable) || (column->Flags & ImGuiTableColumnFlags_NoHide)) column->IsUserEnabledNextFrame = true; if (column->IsUserEnabled != column->IsUserEnabledNextFrame) { column->IsUserEnabled = column->IsUserEnabledNextFrame; table->IsSettingsDirty = true; } column->IsEnabled = column->IsUserEnabled && (column->Flags & ImGuiTableColumnFlags_Disabled) == 0; if (column->SortOrder != -1 && !column->IsEnabled) table->IsSortSpecsDirty = true; if (column->SortOrder > 0 && !(table->Flags & ImGuiTableFlags_SortMulti)) table->IsSortSpecsDirty = true; // Auto-fit unsized columns const bool start_auto_fit = (column->Flags & ImGuiTableColumnFlags_WidthFixed) ? (column->WidthRequest < 0.0f) : (column->StretchWeight < 0.0f); if (start_auto_fit) column->AutoFitQueue = column->CannotSkipItemsQueue = (1 << 3) - 1; // Fit for three frames if (!column->IsEnabled) { column->IndexWithinEnabledSet = -1; continue; } // Mark as enabled and link to previous/next enabled column column->PrevEnabledColumn = (ImGuiTableColumnIdx)prev_visible_column_idx; column->NextEnabledColumn = -1; if (prev_visible_column_idx != -1) table->Columns[prev_visible_column_idx].NextEnabledColumn = (ImGuiTableColumnIdx)column_n; else table->LeftMostEnabledColumn = (ImGuiTableColumnIdx)column_n; column->IndexWithinEnabledSet = table->ColumnsEnabledCount++; ImBitArraySetBit(table->EnabledMaskByIndex, column_n); ImBitArraySetBit(table->EnabledMaskByDisplayOrder, column->DisplayOrder); prev_visible_column_idx = column_n; IM_ASSERT(column->IndexWithinEnabledSet <= column->DisplayOrder); // Calculate ideal/auto column width (that's the width required for all contents to be visible without clipping) // Combine width from regular rows + width from headers unless requested not to. if (!column->IsPreserveWidthAuto && table->InstanceCurrent == 0) column->WidthAuto = TableGetColumnWidthAuto(table, column); // Non-resizable columns keep their requested width (apply user value regardless of IsPreserveWidthAuto) const bool column_is_resizable = (column->Flags & ImGuiTableColumnFlags_NoResize) == 0; if (column_is_resizable) has_resizable = true; if ((column->Flags & ImGuiTableColumnFlags_WidthFixed) && column->InitStretchWeightOrWidth > 0.0f && !column_is_resizable) column->WidthAuto = column->InitStretchWeightOrWidth; if (column->AutoFitQueue != 0x00) has_auto_fit_request = true; if (column->Flags & ImGuiTableColumnFlags_WidthStretch) { stretch_sum_width_auto += column->WidthAuto; count_stretch++; } else { fixed_max_width_auto = ImMax(fixed_max_width_auto, column->WidthAuto); count_fixed++; } } if ((table->Flags & ImGuiTableFlags_Sortable) && table->SortSpecsCount == 0 && !(table->Flags & ImGuiTableFlags_SortTristate)) table->IsSortSpecsDirty = true; table->RightMostEnabledColumn = (ImGuiTableColumnIdx)prev_visible_column_idx; IM_ASSERT(table->LeftMostEnabledColumn >= 0 && table->RightMostEnabledColumn >= 0); // [Part 2] Disable child window clipping while fitting columns. This is not strictly necessary but makes it possible to avoid // the column fitting having to wait until the first visible frame of the child container (may or not be a good thing). Also see #6510. // FIXME-TABLE: for always auto-resizing columns may not want to do that all the time. if (has_auto_fit_request && table->OuterWindow != table->InnerWindow) table->InnerWindow->SkipItems = false; if (has_auto_fit_request) table->IsSettingsDirty = true; // [Part 3] Fix column flags and record a few extra information. float sum_width_requests = 0.0f; // Sum of all width for fixed and auto-resize columns, excluding width contributed by Stretch columns but including spacing/padding. float stretch_sum_weights = 0.0f; // Sum of all weights for stretch columns. table->LeftMostStretchedColumn = table->RightMostStretchedColumn = -1; for (int column_n = 0; column_n < table->ColumnsCount; column_n++) { if (!IM_BITARRAY_TESTBIT(table->EnabledMaskByIndex, column_n)) continue; ImGuiTableColumn* column = &table->Columns[column_n]; const bool column_is_resizable = (column->Flags & ImGuiTableColumnFlags_NoResize) == 0; if (column->Flags & ImGuiTableColumnFlags_WidthFixed) { // Apply same widths policy float width_auto = column->WidthAuto; if (table_sizing_policy == ImGuiTableFlags_SizingFixedSame && (column->AutoFitQueue != 0x00 || !column_is_resizable)) width_auto = fixed_max_width_auto; // Apply automatic width // Latch initial size for fixed columns and update it constantly for auto-resizing column (unless clipped!) if (column->AutoFitQueue != 0x00) column->WidthRequest = width_auto; else if ((column->Flags & ImGuiTableColumnFlags_WidthFixed) && !column_is_resizable && column->IsRequestOutput) column->WidthRequest = width_auto; // FIXME-TABLE: Increase minimum size during init frame to avoid biasing auto-fitting widgets // (e.g. TextWrapped) too much. Otherwise what tends to happen is that TextWrapped would output a very // large height (= first frame scrollbar display very off + clipper would skip lots of items). // This is merely making the side-effect less extreme, but doesn't properly fixes it. // FIXME: Move this to ->WidthGiven to avoid temporary lossyless? // FIXME: This break IsPreserveWidthAuto from not flickering if the stored WidthAuto was smaller. if (column->AutoFitQueue > 0x01 && table->IsInitializing && !column->IsPreserveWidthAuto) column->WidthRequest = ImMax(column->WidthRequest, table->MinColumnWidth * 4.0f); // FIXME-TABLE: Another constant/scale? sum_width_requests += column->WidthRequest; } else { // Initialize stretch weight if (column->AutoFitQueue != 0x00 || column->StretchWeight < 0.0f || !column_is_resizable) { if (column->InitStretchWeightOrWidth > 0.0f) column->StretchWeight = column->InitStretchWeightOrWidth; else if (table_sizing_policy == ImGuiTableFlags_SizingStretchProp) column->StretchWeight = (column->WidthAuto / stretch_sum_width_auto) * count_stretch; else column->StretchWeight = 1.0f; } stretch_sum_weights += column->StretchWeight; if (table->LeftMostStretchedColumn == -1 || table->Columns[table->LeftMostStretchedColumn].DisplayOrder > column->DisplayOrder) table->LeftMostStretchedColumn = (ImGuiTableColumnIdx)column_n; if (table->RightMostStretchedColumn == -1 || table->Columns[table->RightMostStretchedColumn].DisplayOrder < column->DisplayOrder) table->RightMostStretchedColumn = (ImGuiTableColumnIdx)column_n; } column->IsPreserveWidthAuto = false; sum_width_requests += table->CellPaddingX * 2.0f; } table->ColumnsEnabledFixedCount = (ImGuiTableColumnIdx)count_fixed; table->ColumnsStretchSumWeights = stretch_sum_weights; // [Part 4] Apply final widths based on requested widths const ImRect work_rect = table->WorkRect; const float width_spacings = (table->OuterPaddingX * 2.0f) + (table->CellSpacingX1 + table->CellSpacingX2) * (table->ColumnsEnabledCount - 1); const float width_removed = (table->HasScrollbarYPrev && !table->InnerWindow->ScrollbarY) ? g.Style.ScrollbarSize : 0.0f; // To synchronize decoration width of synched tables with mismatching scrollbar state (#5920) const float width_avail = ImMax(1.0f, (((table->Flags & ImGuiTableFlags_ScrollX) && table->InnerWidth == 0.0f) ? table->InnerClipRect.GetWidth() : work_rect.GetWidth()) - width_removed); const float width_avail_for_stretched_columns = width_avail - width_spacings - sum_width_requests; float width_remaining_for_stretched_columns = width_avail_for_stretched_columns; table->ColumnsGivenWidth = width_spacings + (table->CellPaddingX * 2.0f) * table->ColumnsEnabledCount; for (int column_n = 0; column_n < table->ColumnsCount; column_n++) { if (!IM_BITARRAY_TESTBIT(table->EnabledMaskByIndex, column_n)) continue; ImGuiTableColumn* column = &table->Columns[column_n]; // Allocate width for stretched/weighted columns (StretchWeight gets converted into WidthRequest) if (column->Flags & ImGuiTableColumnFlags_WidthStretch) { float weight_ratio = column->StretchWeight / stretch_sum_weights; column->WidthRequest = IM_TRUNC(ImMax(width_avail_for_stretched_columns * weight_ratio, table->MinColumnWidth) + 0.01f); width_remaining_for_stretched_columns -= column->WidthRequest; } // [Resize Rule 1] The right-most Visible column is not resizable if there is at least one Stretch column // See additional comments in TableSetColumnWidth(). if (column->NextEnabledColumn == -1 && table->LeftMostStretchedColumn != -1) column->Flags |= ImGuiTableColumnFlags_NoDirectResize_; // Assign final width, record width in case we will need to shrink column->WidthGiven = ImTrunc(ImMax(column->WidthRequest, table->MinColumnWidth)); table->ColumnsGivenWidth += column->WidthGiven; } // [Part 5] Redistribute stretch remainder width due to rounding (remainder width is < 1.0f * number of Stretch column). // Using right-to-left distribution (more likely to match resizing cursor). if (width_remaining_for_stretched_columns >= 1.0f && !(table->Flags & ImGuiTableFlags_PreciseWidths)) for (int order_n = table->ColumnsCount - 1; stretch_sum_weights > 0.0f && width_remaining_for_stretched_columns >= 1.0f && order_n >= 0; order_n--) { if (!IM_BITARRAY_TESTBIT(table->EnabledMaskByDisplayOrder, order_n)) continue; ImGuiTableColumn* column = &table->Columns[table->DisplayOrderToIndex[order_n]]; if (!(column->Flags & ImGuiTableColumnFlags_WidthStretch)) continue; column->WidthRequest += 1.0f; column->WidthGiven += 1.0f; width_remaining_for_stretched_columns -= 1.0f; } // Determine if table is hovered which will be used to flag columns as hovered. // - In principle we'd like to use the equivalent of IsItemHovered(ImGuiHoveredFlags_AllowWhenBlockedByActiveItem), // but because our item is partially submitted at this point we use ItemHoverable() and a workaround (temporarily // clear ActiveId, which is equivalent to the change provided by _AllowWhenBLockedByActiveItem). // - This allows columns to be marked as hovered when e.g. clicking a button inside the column, or using drag and drop. ImGuiTableInstanceData* table_instance = TableGetInstanceData(table, table->InstanceCurrent); table_instance->HoveredRowLast = table_instance->HoveredRowNext; table_instance->HoveredRowNext = -1; table->HoveredColumnBody = table->HoveredColumnBorder = -1; const ImRect mouse_hit_rect(table->OuterRect.Min.x, table->OuterRect.Min.y, table->OuterRect.Max.x, ImMax(table->OuterRect.Max.y, table->OuterRect.Min.y + table_instance->LastOuterHeight)); const ImGuiID backup_active_id = g.ActiveId; g.ActiveId = 0; const bool is_hovering_table = ItemHoverable(mouse_hit_rect, 0, ImGuiItemFlags_None); g.ActiveId = backup_active_id; // Determine skewed MousePos.x to support angled headers. float mouse_skewed_x = g.IO.MousePos.x; if (table->AngledHeadersHeight > 0.0f) if (g.IO.MousePos.y >= table->OuterRect.Min.y && g.IO.MousePos.y <= table->OuterRect.Min.y + table->AngledHeadersHeight) mouse_skewed_x += ImTrunc((table->OuterRect.Min.y + table->AngledHeadersHeight - g.IO.MousePos.y) * table->AngledHeadersSlope); // [Part 6] Setup final position, offset, skip/clip states and clipping rectangles, detect hovered column // Process columns in their visible orders as we are comparing the visible order and adjusting host_clip_rect while looping. int visible_n = 0; bool has_at_least_one_column_requesting_output = false; bool offset_x_frozen = (table->FreezeColumnsCount > 0); float offset_x = ((table->FreezeColumnsCount > 0) ? table->OuterRect.Min.x : work_rect.Min.x) + table->OuterPaddingX - table->CellSpacingX1; ImRect host_clip_rect = table->InnerClipRect; //host_clip_rect.Max.x += table->CellPaddingX + table->CellSpacingX2; ImBitArrayClearAllBits(table->VisibleMaskByIndex, table->ColumnsCount); for (int order_n = 0; order_n < table->ColumnsCount; order_n++) { const int column_n = table->DisplayOrderToIndex[order_n]; ImGuiTableColumn* column = &table->Columns[column_n]; column->NavLayerCurrent = (ImS8)(table->FreezeRowsCount > 0 ? ImGuiNavLayer_Menu : ImGuiNavLayer_Main); // Use Count NOT request so Header line changes layer when frozen if (offset_x_frozen && table->FreezeColumnsCount == visible_n) { offset_x += work_rect.Min.x - table->OuterRect.Min.x; offset_x_frozen = false; } // Clear status flags column->Flags &= ~ImGuiTableColumnFlags_StatusMask_; if (!IM_BITARRAY_TESTBIT(table->EnabledMaskByDisplayOrder, order_n)) { // Hidden column: clear a few fields and we are done with it for the remainder of the function. // We set a zero-width clip rect but set Min.y/Max.y properly to not interfere with the clipper. column->MinX = column->MaxX = column->WorkMinX = column->ClipRect.Min.x = column->ClipRect.Max.x = offset_x; column->WidthGiven = 0.0f; column->ClipRect.Min.y = work_rect.Min.y; column->ClipRect.Max.y = FLT_MAX; column->ClipRect.ClipWithFull(host_clip_rect); column->IsVisibleX = column->IsVisibleY = column->IsRequestOutput = false; column->IsSkipItems = true; column->ItemWidth = 1.0f; continue; } // Lock start position column->MinX = offset_x; // Lock width based on start position and minimum/maximum width for this position column->WidthMax = TableCalcMaxColumnWidth(table, column_n); column->WidthGiven = ImMin(column->WidthGiven, column->WidthMax); column->WidthGiven = ImMax(column->WidthGiven, ImMin(column->WidthRequest, table->MinColumnWidth)); column->MaxX = offset_x + column->WidthGiven + table->CellSpacingX1 + table->CellSpacingX2 + table->CellPaddingX * 2.0f; // Lock other positions // - ClipRect.Min.x: Because merging draw commands doesn't compare min boundaries, we make ClipRect.Min.x match left bounds to be consistent regardless of merging. // - ClipRect.Max.x: using WorkMaxX instead of MaxX (aka including padding) makes things more consistent when resizing down, tho slightly detrimental to visibility in very-small column. // - ClipRect.Max.x: using MaxX makes it easier for header to receive hover highlight with no discontinuity and display sorting arrow. // - FIXME-TABLE: We want equal width columns to have equal (ClipRect.Max.x - WorkMinX) width, which means ClipRect.max.x cannot stray off host_clip_rect.Max.x else right-most column may appear shorter. const float previous_instance_work_min_x = column->WorkMinX; column->WorkMinX = column->MinX + table->CellPaddingX + table->CellSpacingX1; column->WorkMaxX = column->MaxX - table->CellPaddingX - table->CellSpacingX2; // Expected max column->ItemWidth = ImTrunc(column->WidthGiven * 0.65f); column->ClipRect.Min.x = column->MinX; column->ClipRect.Min.y = work_rect.Min.y; column->ClipRect.Max.x = column->MaxX; //column->WorkMaxX; column->ClipRect.Max.y = FLT_MAX; column->ClipRect.ClipWithFull(host_clip_rect); // Mark column as Clipped (not in sight) // Note that scrolling tables (where inner_window != outer_window) handle Y clipped earlier in BeginTable() so IsVisibleY really only applies to non-scrolling tables. // FIXME-TABLE: Because InnerClipRect.Max.y is conservatively ==outer_window->ClipRect.Max.y, we never can mark columns _Above_ the scroll line as not IsVisibleY. // Taking advantage of LastOuterHeight would yield good results there... // FIXME-TABLE: Y clipping is disabled because it effectively means not submitting will reduce contents width which is fed to outer_window->DC.CursorMaxPos.x, // and this may be used (e.g. typically by outer_window using AlwaysAutoResize or outer_window's horizontal scrollbar, but could be something else). // Possible solution to preserve last known content width for clipped column. Test 'table_reported_size' fails when enabling Y clipping and window is resized small. column->IsVisibleX = (column->ClipRect.Max.x > column->ClipRect.Min.x); column->IsVisibleY = true; // (column->ClipRect.Max.y > column->ClipRect.Min.y); const bool is_visible = column->IsVisibleX; //&& column->IsVisibleY; if (is_visible) ImBitArraySetBit(table->VisibleMaskByIndex, column_n); // Mark column as requesting output from user. Note that fixed + non-resizable sets are auto-fitting at all times and therefore always request output. column->IsRequestOutput = is_visible || column->AutoFitQueue != 0 || column->CannotSkipItemsQueue != 0; // Mark column as SkipItems (ignoring all items/layout) // (table->HostSkipItems is a copy of inner_window->SkipItems before we cleared it above in Part 2) column->IsSkipItems = !column->IsEnabled || table->HostSkipItems; if (column->IsSkipItems) IM_ASSERT(!is_visible); if (column->IsRequestOutput && !column->IsSkipItems) has_at_least_one_column_requesting_output = true; // Update status flags column->Flags |= ImGuiTableColumnFlags_IsEnabled; if (is_visible) column->Flags |= ImGuiTableColumnFlags_IsVisible; if (column->SortOrder != -1) column->Flags |= ImGuiTableColumnFlags_IsSorted; // Detect hovered column if (is_hovering_table && mouse_skewed_x >= column->ClipRect.Min.x && mouse_skewed_x < column->ClipRect.Max.x) { column->Flags |= ImGuiTableColumnFlags_IsHovered; table->HoveredColumnBody = (ImGuiTableColumnIdx)column_n; } // Alignment // FIXME-TABLE: This align based on the whole column width, not per-cell, and therefore isn't useful in // many cases (to be able to honor this we might be able to store a log of cells width, per row, for // visible rows, but nav/programmatic scroll would have visible artifacts.) //if (column->Flags & ImGuiTableColumnFlags_AlignRight) // column->WorkMinX = ImMax(column->WorkMinX, column->MaxX - column->ContentWidthRowsUnfrozen); //else if (column->Flags & ImGuiTableColumnFlags_AlignCenter) // column->WorkMinX = ImLerp(column->WorkMinX, ImMax(column->StartX, column->MaxX - column->ContentWidthRowsUnfrozen), 0.5f); // Reset content width variables if (table->InstanceCurrent == 0) { column->ContentMaxXFrozen = column->WorkMinX; column->ContentMaxXUnfrozen = column->WorkMinX; column->ContentMaxXHeadersUsed = column->WorkMinX; column->ContentMaxXHeadersIdeal = column->WorkMinX; } else { // As we store an absolute value to make per-cell updates faster, we need to offset values used for width computation. const float offset_from_previous_instance = column->WorkMinX - previous_instance_work_min_x; column->ContentMaxXFrozen += offset_from_previous_instance; column->ContentMaxXUnfrozen += offset_from_previous_instance; column->ContentMaxXHeadersUsed += offset_from_previous_instance; column->ContentMaxXHeadersIdeal += offset_from_previous_instance; } // Don't decrement auto-fit counters until container window got a chance to submit its items if (table->HostSkipItems == false && table->InstanceCurrent == 0) { column->AutoFitQueue >>= 1; column->CannotSkipItemsQueue >>= 1; } if (visible_n < table->FreezeColumnsCount) host_clip_rect.Min.x = ImClamp(column->MaxX + TABLE_BORDER_SIZE, host_clip_rect.Min.x, host_clip_rect.Max.x); offset_x += column->WidthGiven + table->CellSpacingX1 + table->CellSpacingX2 + table->CellPaddingX * 2.0f; visible_n++; } // In case the table is visible (e.g. decorations) but all columns clipped, we keep a column visible. // Else if give no chance to a clipper-savy user to submit rows and therefore total contents height used by scrollbar. if (has_at_least_one_column_requesting_output == false) { table->Columns[table->LeftMostEnabledColumn].IsRequestOutput = true; table->Columns[table->LeftMostEnabledColumn].IsSkipItems = false; } // [Part 7] Detect/store when we are hovering the unused space after the right-most column (so e.g. context menus can react on it) // Clear Resizable flag if none of our column are actually resizable (either via an explicit _NoResize flag, either // because of using _WidthAuto/_WidthStretch). This will hide the resizing option from the context menu. const float unused_x1 = ImMax(table->WorkRect.Min.x, table->Columns[table->RightMostEnabledColumn].ClipRect.Max.x); if (is_hovering_table && table->HoveredColumnBody == -1) if (mouse_skewed_x >= unused_x1) table->HoveredColumnBody = (ImGuiTableColumnIdx)table->ColumnsCount; if (has_resizable == false && (table->Flags & ImGuiTableFlags_Resizable)) table->Flags &= ~ImGuiTableFlags_Resizable; table->IsActiveIdAliveBeforeTable = (g.ActiveIdIsAlive != 0); // [Part 8] Lock actual OuterRect/WorkRect right-most position. // This is done late to handle the case of fixed-columns tables not claiming more widths that they need. // Because of this we are careful with uses of WorkRect and InnerClipRect before this point. if (table->RightMostStretchedColumn != -1) table->Flags &= ~ImGuiTableFlags_NoHostExtendX; if (table->Flags & ImGuiTableFlags_NoHostExtendX) { table->OuterRect.Max.x = table->WorkRect.Max.x = unused_x1; table->InnerClipRect.Max.x = ImMin(table->InnerClipRect.Max.x, unused_x1); } table->InnerWindow->ParentWorkRect = table->WorkRect; table->BorderX1 = table->InnerClipRect.Min.x; table->BorderX2 = table->InnerClipRect.Max.x; // Setup window's WorkRect.Max.y for GetContentRegionAvail(). Other values will be updated in each TableBeginCell() call. float window_content_max_y; if (table->Flags & ImGuiTableFlags_NoHostExtendY) window_content_max_y = table->OuterRect.Max.y; else window_content_max_y = ImMax(table->InnerWindow->ContentRegionRect.Max.y, (table->Flags & ImGuiTableFlags_ScrollY) ? 0.0f : table->OuterRect.Max.y); table->InnerWindow->WorkRect.Max.y = ImClamp(window_content_max_y - g.Style.CellPadding.y, table->InnerWindow->WorkRect.Min.y, table->InnerWindow->WorkRect.Max.y); // [Part 9] Allocate draw channels and setup background cliprect TableSetupDrawChannels(table); // [Part 10] Hit testing on borders if (table->Flags & ImGuiTableFlags_Resizable) TableUpdateBorders(table); table_instance->LastTopHeadersRowHeight = 0.0f; table->IsLayoutLocked = true; table->IsUsingHeaders = false; // Highlight header table->HighlightColumnHeader = -1; if (table->IsContextPopupOpen && table->ContextPopupColumn != -1 && table->InstanceInteracted == table->InstanceCurrent) table->HighlightColumnHeader = table->ContextPopupColumn; else if ((table->Flags & ImGuiTableFlags_HighlightHoveredColumn) && table->HoveredColumnBody != -1 && table->HoveredColumnBody != table->ColumnsCount && table->HoveredColumnBorder == -1) if (g.ActiveId == 0 || (table->IsActiveIdInTable || g.DragDropActive)) table->HighlightColumnHeader = table->HoveredColumnBody; // [Part 11] Default context menu // - To append to this menu: you can call TableBeginContextMenuPopup()/.../EndPopup(). // - To modify or replace this: set table->IsContextPopupNoDefaultContents = true, then call TableBeginContextMenuPopup()/.../EndPopup(). // - You may call TableDrawDefaultContextMenu() with selected flags to display specific sections of the default menu, // e.g. TableDrawDefaultContextMenu(table, table->Flags & ~ImGuiTableFlags_Hideable) will display everything EXCEPT columns visibility options. if (table->DisableDefaultContextMenu == false && TableBeginContextMenuPopup(table)) { TableDrawDefaultContextMenu(table, table->Flags); EndPopup(); } // [Part 12] Sanitize and build sort specs before we have a chance to use them for display. // This path will only be exercised when sort specs are modified before header rows (e.g. init or visibility change) if (table->IsSortSpecsDirty && (table->Flags & ImGuiTableFlags_Sortable)) TableSortSpecsBuild(table); // [Part 13] Setup inner window decoration size (for scrolling / nav tracking to properly take account of frozen rows/columns) if (table->FreezeColumnsRequest > 0) table->InnerWindow->DecoInnerSizeX1 = table->Columns[table->DisplayOrderToIndex[table->FreezeColumnsRequest - 1]].MaxX - table->OuterRect.Min.x; if (table->FreezeRowsRequest > 0) table->InnerWindow->DecoInnerSizeY1 = table_instance->LastFrozenHeight; table_instance->LastFrozenHeight = 0.0f; // Initial state ImGuiWindow* inner_window = table->InnerWindow; if (table->Flags & ImGuiTableFlags_NoClip) table->DrawSplitter->SetCurrentChannel(inner_window->DrawList, TABLE_DRAW_CHANNEL_NOCLIP); else inner_window->DrawList->PushClipRect(inner_window->InnerClipRect.Min, inner_window->InnerClipRect.Max, false); // FIXME: use table->InnerClipRect? } // Process hit-testing on resizing borders. Actual size change will be applied in EndTable() // - Set table->HoveredColumnBorder with a short delay/timer to reduce visual feedback noise. void ImGui::TableUpdateBorders(ImGuiTable* table) { ImGuiContext& g = *GImGui; IM_ASSERT(table->Flags & ImGuiTableFlags_Resizable); // At this point OuterRect height may be zero or under actual final height, so we rely on temporal coherency and // use the final height from last frame. Because this is only affecting _interaction_ with columns, it is not // really problematic (whereas the actual visual will be displayed in EndTable() and using the current frame height). // Actual columns highlight/render will be performed in EndTable() and not be affected. ImGuiTableInstanceData* table_instance = TableGetInstanceData(table, table->InstanceCurrent); const float hit_half_width = ImTrunc(TABLE_RESIZE_SEPARATOR_HALF_THICKNESS * g.CurrentDpiScale); const float hit_y1 = (table->FreezeRowsCount >= 1 ? table->OuterRect.Min.y : table->WorkRect.Min.y) + table->AngledHeadersHeight; const float hit_y2_body = ImMax(table->OuterRect.Max.y, hit_y1 + table_instance->LastOuterHeight - table->AngledHeadersHeight); const float hit_y2_head = hit_y1 + table_instance->LastTopHeadersRowHeight; for (int order_n = 0; order_n < table->ColumnsCount; order_n++) { if (!IM_BITARRAY_TESTBIT(table->EnabledMaskByDisplayOrder, order_n)) continue; const int column_n = table->DisplayOrderToIndex[order_n]; ImGuiTableColumn* column = &table->Columns[column_n]; if (column->Flags & (ImGuiTableColumnFlags_NoResize | ImGuiTableColumnFlags_NoDirectResize_)) continue; // ImGuiTableFlags_NoBordersInBodyUntilResize will be honored in TableDrawBorders() const float border_y2_hit = (table->Flags & ImGuiTableFlags_NoBordersInBody) ? hit_y2_head : hit_y2_body; if ((table->Flags & ImGuiTableFlags_NoBordersInBody) && table->IsUsingHeaders == false) continue; if (!column->IsVisibleX && table->LastResizedColumn != column_n) continue; ImGuiID column_id = TableGetColumnResizeID(table, column_n, table->InstanceCurrent); ImRect hit_rect(column->MaxX - hit_half_width, hit_y1, column->MaxX + hit_half_width, border_y2_hit); ItemAdd(hit_rect, column_id, NULL, ImGuiItemFlags_NoNav); //GetForegroundDrawList()->AddRect(hit_rect.Min, hit_rect.Max, IM_COL32(255, 0, 0, 100)); bool hovered = false, held = false; bool pressed = ButtonBehavior(hit_rect, column_id, &hovered, &held, ImGuiButtonFlags_FlattenChildren | ImGuiButtonFlags_PressedOnClick | ImGuiButtonFlags_PressedOnDoubleClick | ImGuiButtonFlags_NoNavFocus); if (pressed && IsMouseDoubleClicked(0)) { TableSetColumnWidthAutoSingle(table, column_n); ClearActiveID(); held = false; } if (held) { if (table->LastResizedColumn == -1) table->ResizeLockMinContentsX2 = table->RightMostEnabledColumn != -1 ? table->Columns[table->RightMostEnabledColumn].MaxX : -FLT_MAX; table->ResizedColumn = (ImGuiTableColumnIdx)column_n; table->InstanceInteracted = table->InstanceCurrent; } if ((hovered && g.HoveredIdTimer > TABLE_RESIZE_SEPARATOR_FEEDBACK_TIMER) || held) { table->HoveredColumnBorder = (ImGuiTableColumnIdx)column_n; SetMouseCursor(ImGuiMouseCursor_ResizeEW); } } } void ImGui::EndTable() { ImGuiContext& g = *GImGui; ImGuiTable* table = g.CurrentTable; IM_ASSERT(table != NULL && "Only call EndTable() if BeginTable() returns true!"); // This assert would be very useful to catch a common error... unfortunately it would probably trigger in some // cases, and for consistency user may sometimes output empty tables (and still benefit from e.g. outer border) //IM_ASSERT(table->IsLayoutLocked && "Table unused: never called TableNextRow(), is that the intent?"); // If the user never got to call TableNextRow() or TableNextColumn(), we call layout ourselves to ensure all our // code paths are consistent (instead of just hoping that TableBegin/TableEnd will work), get borders drawn, etc. if (!table->IsLayoutLocked) TableUpdateLayout(table); const ImGuiTableFlags flags = table->Flags; ImGuiWindow* inner_window = table->InnerWindow; ImGuiWindow* outer_window = table->OuterWindow; ImGuiTableTempData* temp_data = table->TempData; IM_ASSERT(inner_window == g.CurrentWindow); IM_ASSERT(outer_window == inner_window || outer_window == inner_window->ParentWindow); if (table->IsInsideRow) TableEndRow(table); // Context menu in columns body if (flags & ImGuiTableFlags_ContextMenuInBody) if (table->HoveredColumnBody != -1 && !IsAnyItemHovered() && IsMouseReleased(ImGuiMouseButton_Right)) TableOpenContextMenu((int)table->HoveredColumnBody); // Finalize table height ImGuiTableInstanceData* table_instance = TableGetInstanceData(table, table->InstanceCurrent); inner_window->DC.PrevLineSize = temp_data->HostBackupPrevLineSize; inner_window->DC.CurrLineSize = temp_data->HostBackupCurrLineSize; inner_window->DC.CursorMaxPos = temp_data->HostBackupCursorMaxPos; const float inner_content_max_y = table->RowPosY2; IM_ASSERT(table->RowPosY2 == inner_window->DC.CursorPos.y); if (inner_window != outer_window) inner_window->DC.CursorMaxPos.y = inner_content_max_y; else if (!(flags & ImGuiTableFlags_NoHostExtendY)) table->OuterRect.Max.y = table->InnerRect.Max.y = ImMax(table->OuterRect.Max.y, inner_content_max_y); // Patch OuterRect/InnerRect height table->WorkRect.Max.y = ImMax(table->WorkRect.Max.y, table->OuterRect.Max.y); table_instance->LastOuterHeight = table->OuterRect.GetHeight(); // Setup inner scrolling range // FIXME: This ideally should be done earlier, in BeginTable() SetNextWindowContentSize call, just like writing to inner_window->DC.CursorMaxPos.y, // but since the later is likely to be impossible to do we'd rather update both axises together. if (table->Flags & ImGuiTableFlags_ScrollX) { const float outer_padding_for_border = (table->Flags & ImGuiTableFlags_BordersOuterV) ? TABLE_BORDER_SIZE : 0.0f; float max_pos_x = table->InnerWindow->DC.CursorMaxPos.x; if (table->RightMostEnabledColumn != -1) max_pos_x = ImMax(max_pos_x, table->Columns[table->RightMostEnabledColumn].WorkMaxX + table->CellPaddingX + table->OuterPaddingX - outer_padding_for_border); if (table->ResizedColumn != -1) max_pos_x = ImMax(max_pos_x, table->ResizeLockMinContentsX2); table->InnerWindow->DC.CursorMaxPos.x = max_pos_x + table->TempData->AngledHeadersExtraWidth; } // Pop clipping rect if (!(flags & ImGuiTableFlags_NoClip)) inner_window->DrawList->PopClipRect(); inner_window->ClipRect = inner_window->DrawList->_ClipRectStack.back(); // Draw borders if ((flags & ImGuiTableFlags_Borders) != 0) TableDrawBorders(table); #if 0 // Strip out dummy channel draw calls // We have no way to prevent user submitting direct ImDrawList calls into a hidden column (but ImGui:: calls will be clipped out) // Pros: remove draw calls which will have no effect. since they'll have zero-size cliprect they may be early out anyway. // Cons: making it harder for users watching metrics/debugger to spot the wasted vertices. if (table->DummyDrawChannel != (ImGuiTableColumnIdx)-1) { ImDrawChannel* dummy_channel = &table->DrawSplitter._Channels[table->DummyDrawChannel]; dummy_channel->_CmdBuffer.resize(0); dummy_channel->_IdxBuffer.resize(0); } #endif // Flatten channels and merge draw calls ImDrawListSplitter* splitter = table->DrawSplitter; splitter->SetCurrentChannel(inner_window->DrawList, 0); if ((table->Flags & ImGuiTableFlags_NoClip) == 0) TableMergeDrawChannels(table); splitter->Merge(inner_window->DrawList); // Update ColumnsAutoFitWidth to get us ahead for host using our size to auto-resize without waiting for next BeginTable() float auto_fit_width_for_fixed = 0.0f; float auto_fit_width_for_stretched = 0.0f; float auto_fit_width_for_stretched_min = 0.0f; for (int column_n = 0; column_n < table->ColumnsCount; column_n++) if (IM_BITARRAY_TESTBIT(table->EnabledMaskByIndex, column_n)) { ImGuiTableColumn* column = &table->Columns[column_n]; float column_width_request = ((column->Flags & ImGuiTableColumnFlags_WidthFixed) && !(column->Flags & ImGuiTableColumnFlags_NoResize)) ? column->WidthRequest : TableGetColumnWidthAuto(table, column); if (column->Flags & ImGuiTableColumnFlags_WidthFixed) auto_fit_width_for_fixed += column_width_request; else auto_fit_width_for_stretched += column_width_request; if ((column->Flags & ImGuiTableColumnFlags_WidthStretch) && (column->Flags & ImGuiTableColumnFlags_NoResize) != 0) auto_fit_width_for_stretched_min = ImMax(auto_fit_width_for_stretched_min, column_width_request / (column->StretchWeight / table->ColumnsStretchSumWeights)); } const float width_spacings = (table->OuterPaddingX * 2.0f) + (table->CellSpacingX1 + table->CellSpacingX2) * (table->ColumnsEnabledCount - 1); table->ColumnsAutoFitWidth = width_spacings + (table->CellPaddingX * 2.0f) * table->ColumnsEnabledCount + auto_fit_width_for_fixed + ImMax(auto_fit_width_for_stretched, auto_fit_width_for_stretched_min); // Update scroll if ((table->Flags & ImGuiTableFlags_ScrollX) == 0 && inner_window != outer_window) { inner_window->Scroll.x = 0.0f; } else if (table->LastResizedColumn != -1 && table->ResizedColumn == -1 && inner_window->ScrollbarX && table->InstanceInteracted == table->InstanceCurrent) { // When releasing a column being resized, scroll to keep the resulting column in sight const float neighbor_width_to_keep_visible = table->MinColumnWidth + table->CellPaddingX * 2.0f; ImGuiTableColumn* column = &table->Columns[table->LastResizedColumn]; if (column->MaxX < table->InnerClipRect.Min.x) SetScrollFromPosX(inner_window, column->MaxX - inner_window->Pos.x - neighbor_width_to_keep_visible, 1.0f); else if (column->MaxX > table->InnerClipRect.Max.x) SetScrollFromPosX(inner_window, column->MaxX - inner_window->Pos.x + neighbor_width_to_keep_visible, 1.0f); } // Apply resizing/dragging at the end of the frame if (table->ResizedColumn != -1 && table->InstanceCurrent == table->InstanceInteracted) { ImGuiTableColumn* column = &table->Columns[table->ResizedColumn]; const float new_x2 = (g.IO.MousePos.x - g.ActiveIdClickOffset.x + ImTrunc(TABLE_RESIZE_SEPARATOR_HALF_THICKNESS * g.CurrentDpiScale)); const float new_width = ImTrunc(new_x2 - column->MinX - table->CellSpacingX1 - table->CellPaddingX * 2.0f); table->ResizedColumnNextWidth = new_width; } table->IsActiveIdInTable = (g.ActiveIdIsAlive != 0 && table->IsActiveIdAliveBeforeTable == false); // Pop from id stack IM_ASSERT_USER_ERROR(inner_window->IDStack.back() == table_instance->TableInstanceID, "Mismatching PushID/PopID!"); IM_ASSERT_USER_ERROR(outer_window->DC.ItemWidthStack.Size >= temp_data->HostBackupItemWidthStackSize, "Too many PopItemWidth!"); if (table->InstanceCurrent > 0) PopID(); PopID(); // Restore window data that we modified const ImVec2 backup_outer_max_pos = outer_window->DC.CursorMaxPos; inner_window->WorkRect = temp_data->HostBackupWorkRect; inner_window->ParentWorkRect = temp_data->HostBackupParentWorkRect; inner_window->SkipItems = table->HostSkipItems; outer_window->DC.CursorPos = table->OuterRect.Min; outer_window->DC.ItemWidth = temp_data->HostBackupItemWidth; outer_window->DC.ItemWidthStack.Size = temp_data->HostBackupItemWidthStackSize; outer_window->DC.ColumnsOffset = temp_data->HostBackupColumnsOffset; // Layout in outer window // (FIXME: To allow auto-fit and allow desirable effect of SameLine() we dissociate 'used' vs 'ideal' size by overriding // CursorPosPrevLine and CursorMaxPos manually. That should be a more general layout feature, see same problem e.g. #3414) if (inner_window != outer_window) { short backup_nav_layers_active_mask = inner_window->DC.NavLayersActiveMask; inner_window->DC.NavLayersActiveMask |= 1 << ImGuiNavLayer_Main; // So empty table don't appear to navigate differently. g.CurrentTable = NULL; // To avoid error recovery recursing EndChild(); g.CurrentTable = table; inner_window->DC.NavLayersActiveMask = backup_nav_layers_active_mask; } else { ItemSize(table->OuterRect.GetSize()); ItemAdd(table->OuterRect, 0); } // Override declared contents width/height to enable auto-resize while not needlessly adding a scrollbar if (table->Flags & ImGuiTableFlags_NoHostExtendX) { // FIXME-TABLE: Could we remove this section? // ColumnsAutoFitWidth may be one frame ahead here since for Fixed+NoResize is calculated from latest contents IM_ASSERT((table->Flags & ImGuiTableFlags_ScrollX) == 0); outer_window->DC.CursorMaxPos.x = ImMax(backup_outer_max_pos.x, table->OuterRect.Min.x + table->ColumnsAutoFitWidth); } else if (temp_data->UserOuterSize.x <= 0.0f) { // Some references for this: #7651 + tests "table_reported_size", "table_reported_size_outer" equivalent Y block // - Checking for ImGuiTableFlags_ScrollX/ScrollY flag makes us a frame ahead when disabling those flags. // - FIXME-TABLE: Would make sense to pre-compute expected scrollbar visibility/sizes to generally save a frame of feedback. const float inner_content_max_x = table->OuterRect.Min.x + table->ColumnsAutoFitWidth; // Slightly misleading name but used for code symmetry with inner_content_max_y const float decoration_size = table->TempData->AngledHeadersExtraWidth + ((table->Flags & ImGuiTableFlags_ScrollY) ? inner_window->ScrollbarSizes.x : 0.0f); outer_window->DC.IdealMaxPos.x = ImMax(outer_window->DC.IdealMaxPos.x, inner_content_max_x + decoration_size - temp_data->UserOuterSize.x); outer_window->DC.CursorMaxPos.x = ImMax(backup_outer_max_pos.x, ImMin(table->OuterRect.Max.x, inner_content_max_x + decoration_size)); } else { outer_window->DC.CursorMaxPos.x = ImMax(backup_outer_max_pos.x, table->OuterRect.Max.x); } if (temp_data->UserOuterSize.y <= 0.0f) { const float decoration_size = (table->Flags & ImGuiTableFlags_ScrollX) ? inner_window->ScrollbarSizes.y : 0.0f; outer_window->DC.IdealMaxPos.y = ImMax(outer_window->DC.IdealMaxPos.y, inner_content_max_y + decoration_size - temp_data->UserOuterSize.y); outer_window->DC.CursorMaxPos.y = ImMax(backup_outer_max_pos.y, ImMin(table->OuterRect.Max.y, inner_content_max_y + decoration_size)); } else { // OuterRect.Max.y may already have been pushed downward from the initial value (unless ImGuiTableFlags_NoHostExtendY is set) outer_window->DC.CursorMaxPos.y = ImMax(backup_outer_max_pos.y, table->OuterRect.Max.y); } // Save settings if (table->IsSettingsDirty) TableSaveSettings(table); table->IsInitializing = false; // Clear or restore current table, if any IM_ASSERT(g.CurrentWindow == outer_window && g.CurrentTable == table); IM_ASSERT(g.TablesTempDataStacked > 0); temp_data = (--g.TablesTempDataStacked > 0) ? &g.TablesTempData[g.TablesTempDataStacked - 1] : NULL; g.CurrentTable = temp_data ? g.Tables.GetByIndex(temp_data->TableIndex) : NULL; if (g.CurrentTable) { g.CurrentTable->TempData = temp_data; g.CurrentTable->DrawSplitter = &temp_data->DrawSplitter; } outer_window->DC.CurrentTableIdx = g.CurrentTable ? g.Tables.GetIndex(g.CurrentTable) : -1; NavUpdateCurrentWindowIsScrollPushableX(); } // See "COLUMNS SIZING POLICIES" comments at the top of this file // If (init_width_or_weight <= 0.0f) it is ignored void ImGui::TableSetupColumn(const char* label, ImGuiTableColumnFlags flags, float init_width_or_weight, ImGuiID user_id) { ImGuiContext& g = *GImGui; ImGuiTable* table = g.CurrentTable; IM_ASSERT(table != NULL && "Need to call TableSetupColumn() after BeginTable()!"); IM_ASSERT(table->IsLayoutLocked == false && "Need to call call TableSetupColumn() before first row!"); IM_ASSERT((flags & ImGuiTableColumnFlags_StatusMask_) == 0 && "Illegal to pass StatusMask values to TableSetupColumn()"); if (table->DeclColumnsCount >= table->ColumnsCount) { IM_ASSERT_USER_ERROR(table->DeclColumnsCount < table->ColumnsCount, "Called TableSetupColumn() too many times!"); return; } ImGuiTableColumn* column = &table->Columns[table->DeclColumnsCount]; table->DeclColumnsCount++; // Assert when passing a width or weight if policy is entirely left to default, to avoid storing width into weight and vice-versa. // Give a grace to users of ImGuiTableFlags_ScrollX. if (table->IsDefaultSizingPolicy && (flags & ImGuiTableColumnFlags_WidthMask_) == 0 && (flags & ImGuiTableFlags_ScrollX) == 0) IM_ASSERT(init_width_or_weight <= 0.0f && "Can only specify width/weight if sizing policy is set explicitly in either Table or Column."); // When passing a width automatically enforce WidthFixed policy // (whereas TableSetupColumnFlags would default to WidthAuto if table is not Resizable) if ((flags & ImGuiTableColumnFlags_WidthMask_) == 0 && init_width_or_weight > 0.0f) if ((table->Flags & ImGuiTableFlags_SizingMask_) == ImGuiTableFlags_SizingFixedFit || (table->Flags & ImGuiTableFlags_SizingMask_) == ImGuiTableFlags_SizingFixedSame) flags |= ImGuiTableColumnFlags_WidthFixed; if (flags & ImGuiTableColumnFlags_AngledHeader) { flags |= ImGuiTableColumnFlags_NoHeaderLabel; table->AngledHeadersCount++; } TableSetupColumnFlags(table, column, flags); column->UserID = user_id; flags = column->Flags; // Initialize defaults column->InitStretchWeightOrWidth = init_width_or_weight; if (table->IsInitializing) { // Init width or weight if (column->WidthRequest < 0.0f && column->StretchWeight < 0.0f) { if ((flags & ImGuiTableColumnFlags_WidthFixed) && init_width_or_weight > 0.0f) column->WidthRequest = init_width_or_weight; if (flags & ImGuiTableColumnFlags_WidthStretch) column->StretchWeight = (init_width_or_weight > 0.0f) ? init_width_or_weight : -1.0f; // Disable auto-fit if an explicit width/weight has been specified if (init_width_or_weight > 0.0f) column->AutoFitQueue = 0x00; } // Init default visibility/sort state if ((flags & ImGuiTableColumnFlags_DefaultHide) && (table->SettingsLoadedFlags & ImGuiTableFlags_Hideable) == 0) column->IsUserEnabled = column->IsUserEnabledNextFrame = false; if (flags & ImGuiTableColumnFlags_DefaultSort && (table->SettingsLoadedFlags & ImGuiTableFlags_Sortable) == 0) { column->SortOrder = 0; // Multiple columns using _DefaultSort will be reassigned unique SortOrder values when building the sort specs. column->SortDirection = (column->Flags & ImGuiTableColumnFlags_PreferSortDescending) ? (ImS8)ImGuiSortDirection_Descending : (ImU8)(ImGuiSortDirection_Ascending); } } // Store name (append with zero-terminator in contiguous buffer) // FIXME: If we recorded the number of \n in names we could compute header row height column->NameOffset = -1; if (label != NULL && label[0] != 0) { column->NameOffset = (ImS16)table->ColumnsNames.size(); table->ColumnsNames.append(label, label + strlen(label) + 1); } } // [Public] void ImGui::TableSetupScrollFreeze(int columns, int rows) { ImGuiContext& g = *GImGui; ImGuiTable* table = g.CurrentTable; IM_ASSERT(table != NULL && "Need to call TableSetupColumn() after BeginTable()!"); IM_ASSERT(table->IsLayoutLocked == false && "Need to call TableSetupColumn() before first row!"); IM_ASSERT(columns >= 0 && columns < IMGUI_TABLE_MAX_COLUMNS); IM_ASSERT(rows >= 0 && rows < 128); // Arbitrary limit table->FreezeColumnsRequest = (table->Flags & ImGuiTableFlags_ScrollX) ? (ImGuiTableColumnIdx)ImMin(columns, table->ColumnsCount) : 0; table->FreezeColumnsCount = (table->InnerWindow->Scroll.x != 0.0f) ? table->FreezeColumnsRequest : 0; table->FreezeRowsRequest = (table->Flags & ImGuiTableFlags_ScrollY) ? (ImGuiTableColumnIdx)rows : 0; table->FreezeRowsCount = (table->InnerWindow->Scroll.y != 0.0f) ? table->FreezeRowsRequest : 0; table->IsUnfrozenRows = (table->FreezeRowsCount == 0); // Make sure this is set before TableUpdateLayout() so ImGuiListClipper can benefit from it.b // Ensure frozen columns are ordered in their section. We still allow multiple frozen columns to be reordered. // FIXME-TABLE: This work for preserving 2143 into 21|43. How about 4321 turning into 21|43? (preserve relative order in each section) for (int column_n = 0; column_n < table->FreezeColumnsRequest; column_n++) { int order_n = table->DisplayOrderToIndex[column_n]; if (order_n != column_n && order_n >= table->FreezeColumnsRequest) { ImSwap(table->Columns[table->DisplayOrderToIndex[order_n]].DisplayOrder, table->Columns[table->DisplayOrderToIndex[column_n]].DisplayOrder); ImSwap(table->DisplayOrderToIndex[order_n], table->DisplayOrderToIndex[column_n]); } } } //----------------------------------------------------------------------------- // [SECTION] Tables: Simple accessors //----------------------------------------------------------------------------- // - TableGetColumnCount() // - TableGetColumnName() // - TableGetColumnName() [Internal] // - TableSetColumnEnabled() // - TableGetColumnFlags() // - TableGetCellBgRect() [Internal] // - TableGetColumnResizeID() [Internal] // - TableGetHoveredColumn() [Internal] // - TableGetHoveredRow() [Internal] // - TableSetBgColor() //----------------------------------------------------------------------------- int ImGui::TableGetColumnCount() { ImGuiContext& g = *GImGui; ImGuiTable* table = g.CurrentTable; return table ? table->ColumnsCount : 0; } const char* ImGui::TableGetColumnName(int column_n) { ImGuiContext& g = *GImGui; ImGuiTable* table = g.CurrentTable; if (!table) return NULL; if (column_n < 0) column_n = table->CurrentColumn; return TableGetColumnName(table, column_n); } const char* ImGui::TableGetColumnName(const ImGuiTable* table, int column_n) { if (table->IsLayoutLocked == false && column_n >= table->DeclColumnsCount) return ""; // NameOffset is invalid at this point const ImGuiTableColumn* column = &table->Columns[column_n]; if (column->NameOffset == -1) return ""; return &table->ColumnsNames.Buf[column->NameOffset]; } // Change user accessible enabled/disabled state of a column (often perceived as "showing/hiding" from users point of view) // Note that end-user can use the context menu to change this themselves (right-click in headers, or right-click in columns body with ImGuiTableFlags_ContextMenuInBody) // - Require table to have the ImGuiTableFlags_Hideable flag because we are manipulating user accessible state. // - Request will be applied during next layout, which happens on the first call to TableNextRow() after BeginTable(). // - For the getter you can test (TableGetColumnFlags() & ImGuiTableColumnFlags_IsEnabled) != 0. // - Alternative: the ImGuiTableColumnFlags_Disabled is an overriding/master disable flag which will also hide the column from context menu. void ImGui::TableSetColumnEnabled(int column_n, bool enabled) { ImGuiContext& g = *GImGui; ImGuiTable* table = g.CurrentTable; IM_ASSERT(table != NULL); if (!table) return; IM_ASSERT(table->Flags & ImGuiTableFlags_Hideable); // See comments above if (column_n < 0) column_n = table->CurrentColumn; IM_ASSERT(column_n >= 0 && column_n < table->ColumnsCount); ImGuiTableColumn* column = &table->Columns[column_n]; column->IsUserEnabledNextFrame = enabled; } // We allow querying for an extra column in order to poll the IsHovered state of the right-most section ImGuiTableColumnFlags ImGui::TableGetColumnFlags(int column_n) { ImGuiContext& g = *GImGui; ImGuiTable* table = g.CurrentTable; if (!table) return ImGuiTableColumnFlags_None; if (column_n < 0) column_n = table->CurrentColumn; if (column_n == table->ColumnsCount) return (table->HoveredColumnBody == column_n) ? ImGuiTableColumnFlags_IsHovered : ImGuiTableColumnFlags_None; return table->Columns[column_n].Flags; } // Return the cell rectangle based on currently known height. // - Important: we generally don't know our row height until the end of the row, so Max.y will be incorrect in many situations. // The only case where this is correct is if we provided a min_row_height to TableNextRow() and don't go below it, or in TableEndRow() when we locked that height. // - Important: if ImGuiTableFlags_PadOuterX is set but ImGuiTableFlags_PadInnerX is not set, the outer-most left and right // columns report a small offset so their CellBgRect can extend up to the outer border. // FIXME: But the rendering code in TableEndRow() nullifies that with clamping required for scrolling. ImRect ImGui::TableGetCellBgRect(const ImGuiTable* table, int column_n) { const ImGuiTableColumn* column = &table->Columns[column_n]; float x1 = column->MinX; float x2 = column->MaxX; //if (column->PrevEnabledColumn == -1) // x1 -= table->OuterPaddingX; //if (column->NextEnabledColumn == -1) // x2 += table->OuterPaddingX; x1 = ImMax(x1, table->WorkRect.Min.x); x2 = ImMin(x2, table->WorkRect.Max.x); return ImRect(x1, table->RowPosY1, x2, table->RowPosY2); } // Return the resizing ID for the right-side of the given column. ImGuiID ImGui::TableGetColumnResizeID(ImGuiTable* table, int column_n, int instance_no) { IM_ASSERT(column_n >= 0 && column_n < table->ColumnsCount); ImGuiID instance_id = TableGetInstanceID(table, instance_no); return instance_id + 1 + column_n; // FIXME: #6140: still not ideal } // Return -1 when table is not hovered. return columns_count if hovering the unused space at the right of the right-most visible column. int ImGui::TableGetHoveredColumn() { ImGuiContext& g = *GImGui; ImGuiTable* table = g.CurrentTable; if (!table) return -1; return (int)table->HoveredColumnBody; } // Return -1 when table is not hovered. Return maxrow+1 if in table but below last submitted row. // *IMPORTANT* Unlike TableGetHoveredColumn(), this has a one frame latency in updating the value. // This difference with is the reason why this is not public yet. int ImGui::TableGetHoveredRow() { ImGuiContext& g = *GImGui; ImGuiTable* table = g.CurrentTable; if (!table) return -1; ImGuiTableInstanceData* table_instance = TableGetInstanceData(table, table->InstanceCurrent); return (int)table_instance->HoveredRowLast; } void ImGui::TableSetBgColor(ImGuiTableBgTarget target, ImU32 color, int column_n) { ImGuiContext& g = *GImGui; ImGuiTable* table = g.CurrentTable; IM_ASSERT(target != ImGuiTableBgTarget_None); if (color == IM_COL32_DISABLE) color = 0; // We cannot draw neither the cell or row background immediately as we don't know the row height at this point in time. switch (target) { case ImGuiTableBgTarget_CellBg: { if (table->RowPosY1 > table->InnerClipRect.Max.y) // Discard return; if (column_n == -1) column_n = table->CurrentColumn; if (!IM_BITARRAY_TESTBIT(table->VisibleMaskByIndex, column_n)) return; if (table->RowCellDataCurrent < 0 || table->RowCellData[table->RowCellDataCurrent].Column != column_n) table->RowCellDataCurrent++; ImGuiTableCellData* cell_data = &table->RowCellData[table->RowCellDataCurrent]; cell_data->BgColor = color; cell_data->Column = (ImGuiTableColumnIdx)column_n; break; } case ImGuiTableBgTarget_RowBg0: case ImGuiTableBgTarget_RowBg1: { if (table->RowPosY1 > table->InnerClipRect.Max.y) // Discard return; IM_ASSERT(column_n == -1); int bg_idx = (target == ImGuiTableBgTarget_RowBg1) ? 1 : 0; table->RowBgColor[bg_idx] = color; break; } default: IM_ASSERT(0); } } //------------------------------------------------------------------------- // [SECTION] Tables: Row changes //------------------------------------------------------------------------- // - TableGetRowIndex() // - TableNextRow() // - TableBeginRow() [Internal] // - TableEndRow() [Internal] //------------------------------------------------------------------------- // [Public] Note: for row coloring we use ->RowBgColorCounter which is the same value without counting header rows int ImGui::TableGetRowIndex() { ImGuiContext& g = *GImGui; ImGuiTable* table = g.CurrentTable; if (!table) return 0; return table->CurrentRow; } // [Public] Starts into the first cell of a new row void ImGui::TableNextRow(ImGuiTableRowFlags row_flags, float row_min_height) { ImGuiContext& g = *GImGui; ImGuiTable* table = g.CurrentTable; if (!table->IsLayoutLocked) TableUpdateLayout(table); if (table->IsInsideRow) TableEndRow(table); table->LastRowFlags = table->RowFlags; table->RowFlags = row_flags; table->RowCellPaddingY = g.Style.CellPadding.y; table->RowMinHeight = row_min_height; TableBeginRow(table); // We honor min_row_height requested by user, but cannot guarantee per-row maximum height, // because that would essentially require a unique clipping rectangle per-cell. table->RowPosY2 += table->RowCellPaddingY * 2.0f; table->RowPosY2 = ImMax(table->RowPosY2, table->RowPosY1 + row_min_height); // Disable output until user calls TableNextColumn() table->InnerWindow->SkipItems = true; } // [Internal] Only called by TableNextRow() void ImGui::TableBeginRow(ImGuiTable* table) { ImGuiWindow* window = table->InnerWindow; IM_ASSERT(!table->IsInsideRow); // New row table->CurrentRow++; table->CurrentColumn = -1; table->RowBgColor[0] = table->RowBgColor[1] = IM_COL32_DISABLE; table->RowCellDataCurrent = -1; table->IsInsideRow = true; // Begin frozen rows float next_y1 = table->RowPosY2; if (table->CurrentRow == 0 && table->FreezeRowsCount > 0) next_y1 = window->DC.CursorPos.y = table->OuterRect.Min.y; table->RowPosY1 = table->RowPosY2 = next_y1; table->RowTextBaseline = 0.0f; table->RowIndentOffsetX = window->DC.Indent.x - table->HostIndentX; // Lock indent window->DC.PrevLineTextBaseOffset = 0.0f; window->DC.CursorPosPrevLine = ImVec2(window->DC.CursorPos.x, window->DC.CursorPos.y + table->RowCellPaddingY); // This allows users to call SameLine() to share LineSize between columns. window->DC.PrevLineSize = window->DC.CurrLineSize = ImVec2(0.0f, 0.0f); // This allows users to call SameLine() to share LineSize between columns, and to call it from first column too. window->DC.IsSameLine = window->DC.IsSetPos = false; window->DC.CursorMaxPos.y = next_y1; // Making the header BG color non-transparent will allow us to overlay it multiple times when handling smooth dragging. if (table->RowFlags & ImGuiTableRowFlags_Headers) { TableSetBgColor(ImGuiTableBgTarget_RowBg0, GetColorU32(ImGuiCol_TableHeaderBg)); if (table->CurrentRow == 0) table->IsUsingHeaders = true; } } // [Internal] Called by TableNextRow() void ImGui::TableEndRow(ImGuiTable* table) { ImGuiContext& g = *GImGui; ImGuiWindow* window = g.CurrentWindow; IM_ASSERT(window == table->InnerWindow); IM_ASSERT(table->IsInsideRow); if (table->CurrentColumn != -1) TableEndCell(table); // Logging if (g.LogEnabled) LogRenderedText(NULL, "|"); // Position cursor at the bottom of our row so it can be used for e.g. clipping calculation. However it is // likely that the next call to TableBeginCell() will reposition the cursor to take account of vertical padding. window->DC.CursorPos.y = table->RowPosY2; // Row background fill const float bg_y1 = table->RowPosY1; const float bg_y2 = table->RowPosY2; const bool unfreeze_rows_actual = (table->CurrentRow + 1 == table->FreezeRowsCount); const bool unfreeze_rows_request = (table->CurrentRow + 1 == table->FreezeRowsRequest); ImGuiTableInstanceData* table_instance = TableGetInstanceData(table, table->InstanceCurrent); if ((table->RowFlags & ImGuiTableRowFlags_Headers) && (table->CurrentRow == 0 || (table->LastRowFlags & ImGuiTableRowFlags_Headers))) table_instance->LastTopHeadersRowHeight += bg_y2 - bg_y1; const bool is_visible = (bg_y2 >= table->InnerClipRect.Min.y && bg_y1 <= table->InnerClipRect.Max.y); if (is_visible) { // Update data for TableGetHoveredRow() if (table->HoveredColumnBody != -1 && g.IO.MousePos.y >= bg_y1 && g.IO.MousePos.y < bg_y2 && table_instance->HoveredRowNext < 0) table_instance->HoveredRowNext = table->CurrentRow; // Decide of background color for the row ImU32 bg_col0 = 0; ImU32 bg_col1 = 0; if (table->RowBgColor[0] != IM_COL32_DISABLE) bg_col0 = table->RowBgColor[0]; else if (table->Flags & ImGuiTableFlags_RowBg) bg_col0 = GetColorU32((table->RowBgColorCounter & 1) ? ImGuiCol_TableRowBgAlt : ImGuiCol_TableRowBg); if (table->RowBgColor[1] != IM_COL32_DISABLE) bg_col1 = table->RowBgColor[1]; // Decide of top border color ImU32 top_border_col = 0; const float border_size = TABLE_BORDER_SIZE; if (table->CurrentRow > 0 && (table->Flags & ImGuiTableFlags_BordersInnerH)) top_border_col = (table->LastRowFlags & ImGuiTableRowFlags_Headers) ? table->BorderColorStrong : table->BorderColorLight; const bool draw_cell_bg_color = table->RowCellDataCurrent >= 0; const bool draw_strong_bottom_border = unfreeze_rows_actual; if ((bg_col0 | bg_col1 | top_border_col) != 0 || draw_strong_bottom_border || draw_cell_bg_color) { // In theory we could call SetWindowClipRectBeforeSetChannel() but since we know TableEndRow() is // always followed by a change of clipping rectangle we perform the smallest overwrite possible here. if ((table->Flags & ImGuiTableFlags_NoClip) == 0) window->DrawList->_CmdHeader.ClipRect = table->Bg0ClipRectForDrawCmd.ToVec4(); table->DrawSplitter->SetCurrentChannel(window->DrawList, TABLE_DRAW_CHANNEL_BG0); } // Draw row background // We soft/cpu clip this so all backgrounds and borders can share the same clipping rectangle if (bg_col0 || bg_col1) { ImRect row_rect(table->WorkRect.Min.x, bg_y1, table->WorkRect.Max.x, bg_y2); row_rect.ClipWith(table->BgClipRect); if (bg_col0 != 0 && row_rect.Min.y < row_rect.Max.y) window->DrawList->AddRectFilled(row_rect.Min, row_rect.Max, bg_col0); if (bg_col1 != 0 && row_rect.Min.y < row_rect.Max.y) window->DrawList->AddRectFilled(row_rect.Min, row_rect.Max, bg_col1); } // Draw cell background color if (draw_cell_bg_color) { ImGuiTableCellData* cell_data_end = &table->RowCellData[table->RowCellDataCurrent]; for (ImGuiTableCellData* cell_data = &table->RowCellData[0]; cell_data <= cell_data_end; cell_data++) { // As we render the BG here we need to clip things (for layout we would not) // FIXME: This cancels the OuterPadding addition done by TableGetCellBgRect(), need to keep it while rendering correctly while scrolling. const ImGuiTableColumn* column = &table->Columns[cell_data->Column]; ImRect cell_bg_rect = TableGetCellBgRect(table, cell_data->Column); cell_bg_rect.ClipWith(table->BgClipRect); cell_bg_rect.Min.x = ImMax(cell_bg_rect.Min.x, column->ClipRect.Min.x); // So that first column after frozen one gets clipped when scrolling cell_bg_rect.Max.x = ImMin(cell_bg_rect.Max.x, column->MaxX); if (cell_bg_rect.Min.y < cell_bg_rect.Max.y) window->DrawList->AddRectFilled(cell_bg_rect.Min, cell_bg_rect.Max, cell_data->BgColor); } } // Draw top border if (top_border_col && bg_y1 >= table->BgClipRect.Min.y && bg_y1 < table->BgClipRect.Max.y) window->DrawList->AddLine(ImVec2(table->BorderX1, bg_y1), ImVec2(table->BorderX2, bg_y1), top_border_col, border_size); // Draw bottom border at the row unfreezing mark (always strong) if (draw_strong_bottom_border && bg_y2 >= table->BgClipRect.Min.y && bg_y2 < table->BgClipRect.Max.y) window->DrawList->AddLine(ImVec2(table->BorderX1, bg_y2), ImVec2(table->BorderX2, bg_y2), table->BorderColorStrong, border_size); } // End frozen rows (when we are past the last frozen row line, teleport cursor and alter clipping rectangle) // We need to do that in TableEndRow() instead of TableBeginRow() so the list clipper can mark end of row and // get the new cursor position. if (unfreeze_rows_request) { for (int column_n = 0; column_n < table->ColumnsCount; column_n++) table->Columns[column_n].NavLayerCurrent = ImGuiNavLayer_Main; const float y0 = ImMax(table->RowPosY2 + 1, table->InnerClipRect.Min.y); table_instance->LastFrozenHeight = y0 - table->OuterRect.Min.y; if (unfreeze_rows_actual) { IM_ASSERT(table->IsUnfrozenRows == false); table->IsUnfrozenRows = true; // BgClipRect starts as table->InnerClipRect, reduce it now and make BgClipRectForDrawCmd == BgClipRect table->BgClipRect.Min.y = table->Bg2ClipRectForDrawCmd.Min.y = ImMin(y0, table->InnerClipRect.Max.y); table->BgClipRect.Max.y = table->Bg2ClipRectForDrawCmd.Max.y = table->InnerClipRect.Max.y; table->Bg2DrawChannelCurrent = table->Bg2DrawChannelUnfrozen; IM_ASSERT(table->Bg2ClipRectForDrawCmd.Min.y <= table->Bg2ClipRectForDrawCmd.Max.y); float row_height = table->RowPosY2 - table->RowPosY1; table->RowPosY2 = window->DC.CursorPos.y = table->WorkRect.Min.y + table->RowPosY2 - table->OuterRect.Min.y; table->RowPosY1 = table->RowPosY2 - row_height; for (int column_n = 0; column_n < table->ColumnsCount; column_n++) { ImGuiTableColumn* column = &table->Columns[column_n]; column->DrawChannelCurrent = column->DrawChannelUnfrozen; column->ClipRect.Min.y = table->Bg2ClipRectForDrawCmd.Min.y; } // Update cliprect ahead of TableBeginCell() so clipper can access to new ClipRect->Min.y SetWindowClipRectBeforeSetChannel(window, table->Columns[0].ClipRect); table->DrawSplitter->SetCurrentChannel(window->DrawList, table->Columns[0].DrawChannelCurrent); } } if (!(table->RowFlags & ImGuiTableRowFlags_Headers)) table->RowBgColorCounter++; table->IsInsideRow = false; } //------------------------------------------------------------------------- // [SECTION] Tables: Columns changes //------------------------------------------------------------------------- // - TableGetColumnIndex() // - TableSetColumnIndex() // - TableNextColumn() // - TableBeginCell() [Internal] // - TableEndCell() [Internal] //------------------------------------------------------------------------- int ImGui::TableGetColumnIndex() { ImGuiContext& g = *GImGui; ImGuiTable* table = g.CurrentTable; if (!table) return 0; return table->CurrentColumn; } // [Public] Append into a specific column bool ImGui::TableSetColumnIndex(int column_n) { ImGuiContext& g = *GImGui; ImGuiTable* table = g.CurrentTable; if (!table) return false; if (table->CurrentColumn != column_n) { if (table->CurrentColumn != -1) TableEndCell(table); IM_ASSERT(column_n >= 0 && table->ColumnsCount); TableBeginCell(table, column_n); } // Return whether the column is visible. User may choose to skip submitting items based on this return value, // however they shouldn't skip submitting for columns that may have the tallest contribution to row height. return table->Columns[column_n].IsRequestOutput; } // [Public] Append into the next column, wrap and create a new row when already on last column bool ImGui::TableNextColumn() { ImGuiContext& g = *GImGui; ImGuiTable* table = g.CurrentTable; if (!table) return false; if (table->IsInsideRow && table->CurrentColumn + 1 < table->ColumnsCount) { if (table->CurrentColumn != -1) TableEndCell(table); TableBeginCell(table, table->CurrentColumn + 1); } else { TableNextRow(); TableBeginCell(table, 0); } // Return whether the column is visible. User may choose to skip submitting items based on this return value, // however they shouldn't skip submitting for columns that may have the tallest contribution to row height. return table->Columns[table->CurrentColumn].IsRequestOutput; } // [Internal] Called by TableSetColumnIndex()/TableNextColumn() // This is called very frequently, so we need to be mindful of unnecessary overhead. // FIXME-TABLE FIXME-OPT: Could probably shortcut some things for non-active or clipped columns. void ImGui::TableBeginCell(ImGuiTable* table, int column_n) { ImGuiContext& g = *GImGui; ImGuiTableColumn* column = &table->Columns[column_n]; ImGuiWindow* window = table->InnerWindow; table->CurrentColumn = column_n; // Start position is roughly ~~ CellRect.Min + CellPadding + Indent float start_x = column->WorkMinX; if (column->Flags & ImGuiTableColumnFlags_IndentEnable) start_x += table->RowIndentOffsetX; // ~~ += window.DC.Indent.x - table->HostIndentX, except we locked it for the row. window->DC.CursorPos.x = start_x; window->DC.CursorPos.y = table->RowPosY1 + table->RowCellPaddingY; window->DC.CursorMaxPos.x = window->DC.CursorPos.x; window->DC.ColumnsOffset.x = start_x - window->Pos.x - window->DC.Indent.x; // FIXME-WORKRECT window->DC.CursorPosPrevLine.x = window->DC.CursorPos.x; // PrevLine.y is preserved. This allows users to call SameLine() to share LineSize between columns. window->DC.CurrLineTextBaseOffset = table->RowTextBaseline; window->DC.NavLayerCurrent = (ImGuiNavLayer)column->NavLayerCurrent; // Note how WorkRect.Max.y is only set once during layout window->WorkRect.Min.y = window->DC.CursorPos.y; window->WorkRect.Min.x = column->WorkMinX; window->WorkRect.Max.x = column->WorkMaxX; window->DC.ItemWidth = column->ItemWidth; window->SkipItems = column->IsSkipItems; if (column->IsSkipItems) { g.LastItemData.ID = 0; g.LastItemData.StatusFlags = 0; } if (table->Flags & ImGuiTableFlags_NoClip) { // FIXME: if we end up drawing all borders/bg in EndTable, could remove this and just assert that channel hasn't changed. table->DrawSplitter->SetCurrentChannel(window->DrawList, TABLE_DRAW_CHANNEL_NOCLIP); //IM_ASSERT(table->DrawSplitter._Current == TABLE_DRAW_CHANNEL_NOCLIP); } else { // FIXME-TABLE: Could avoid this if draw channel is dummy channel? SetWindowClipRectBeforeSetChannel(window, column->ClipRect); table->DrawSplitter->SetCurrentChannel(window->DrawList, column->DrawChannelCurrent); } // Logging if (g.LogEnabled && !column->IsSkipItems) { LogRenderedText(&window->DC.CursorPos, "|"); g.LogLinePosY = FLT_MAX; } } // [Internal] Called by TableNextRow()/TableSetColumnIndex()/TableNextColumn() void ImGui::TableEndCell(ImGuiTable* table) { ImGuiTableColumn* column = &table->Columns[table->CurrentColumn]; ImGuiWindow* window = table->InnerWindow; if (window->DC.IsSetPos) ErrorCheckUsingSetCursorPosToExtendParentBoundaries(); // Report maximum position so we can infer content size per column. float* p_max_pos_x; if (table->RowFlags & ImGuiTableRowFlags_Headers) p_max_pos_x = &column->ContentMaxXHeadersUsed; // Useful in case user submit contents in header row that is not a TableHeader() call else p_max_pos_x = table->IsUnfrozenRows ? &column->ContentMaxXUnfrozen : &column->ContentMaxXFrozen; *p_max_pos_x = ImMax(*p_max_pos_x, window->DC.CursorMaxPos.x); if (column->IsEnabled) table->RowPosY2 = ImMax(table->RowPosY2, window->DC.CursorMaxPos.y + table->RowCellPaddingY); column->ItemWidth = window->DC.ItemWidth; // Propagate text baseline for the entire row // FIXME-TABLE: Here we propagate text baseline from the last line of the cell.. instead of the first one. table->RowTextBaseline = ImMax(table->RowTextBaseline, window->DC.PrevLineTextBaseOffset); } //------------------------------------------------------------------------- // [SECTION] Tables: Columns width management //------------------------------------------------------------------------- // - TableGetMaxColumnWidth() [Internal] // - TableGetColumnWidthAuto() [Internal] // - TableSetColumnWidth() // - TableSetColumnWidthAutoSingle() [Internal] // - TableSetColumnWidthAutoAll() [Internal] // - TableUpdateColumnsWeightFromWidth() [Internal] //------------------------------------------------------------------------- // Note that actual columns widths are computed in TableUpdateLayout(). //------------------------------------------------------------------------- // Maximum column content width given current layout. Use column->MinX so this value differs on a per-column basis. float ImGui::TableCalcMaxColumnWidth(const ImGuiTable* table, int column_n) { const ImGuiTableColumn* column = &table->Columns[column_n]; float max_width = FLT_MAX; const float min_column_distance = table->MinColumnWidth + table->CellPaddingX * 2.0f + table->CellSpacingX1 + table->CellSpacingX2; if (table->Flags & ImGuiTableFlags_ScrollX) { // Frozen columns can't reach beyond visible width else scrolling will naturally break. // (we use DisplayOrder as within a set of multiple frozen column reordering is possible) if (column->DisplayOrder < table->FreezeColumnsRequest) { max_width = (table->InnerClipRect.Max.x - (table->FreezeColumnsRequest - column->DisplayOrder) * min_column_distance) - column->MinX; max_width = max_width - table->OuterPaddingX - table->CellPaddingX - table->CellSpacingX2; } } else if ((table->Flags & ImGuiTableFlags_NoKeepColumnsVisible) == 0) { // If horizontal scrolling if disabled, we apply a final lossless shrinking of columns in order to make // sure they are all visible. Because of this we also know that all of the columns will always fit in // table->WorkRect and therefore in table->InnerRect (because ScrollX is off) // FIXME-TABLE: This is solved incorrectly but also quite a difficult problem to fix as we also want ClipRect width to match. // See "table_width_distrib" and "table_width_keep_visible" tests max_width = table->WorkRect.Max.x - (table->ColumnsEnabledCount - column->IndexWithinEnabledSet - 1) * min_column_distance - column->MinX; //max_width -= table->CellSpacingX1; max_width -= table->CellSpacingX2; max_width -= table->CellPaddingX * 2.0f; max_width -= table->OuterPaddingX; } return max_width; } // Note this is meant to be stored in column->WidthAuto, please generally use the WidthAuto field float ImGui::TableGetColumnWidthAuto(ImGuiTable* table, ImGuiTableColumn* column) { const float content_width_body = ImMax(column->ContentMaxXFrozen, column->ContentMaxXUnfrozen) - column->WorkMinX; const float content_width_headers = column->ContentMaxXHeadersIdeal - column->WorkMinX; float width_auto = content_width_body; if (!(column->Flags & ImGuiTableColumnFlags_NoHeaderWidth)) width_auto = ImMax(width_auto, content_width_headers); // Non-resizable fixed columns preserve their requested width if ((column->Flags & ImGuiTableColumnFlags_WidthFixed) && column->InitStretchWeightOrWidth > 0.0f) if (!(table->Flags & ImGuiTableFlags_Resizable) || (column->Flags & ImGuiTableColumnFlags_NoResize)) width_auto = column->InitStretchWeightOrWidth; return ImMax(width_auto, table->MinColumnWidth); } // 'width' = inner column width, without padding void ImGui::TableSetColumnWidth(int column_n, float width) { ImGuiContext& g = *GImGui; ImGuiTable* table = g.CurrentTable; IM_ASSERT(table != NULL && table->IsLayoutLocked == false); IM_ASSERT(column_n >= 0 && column_n < table->ColumnsCount); ImGuiTableColumn* column_0 = &table->Columns[column_n]; float column_0_width = width; // Apply constraints early // Compare both requested and actual given width to avoid overwriting requested width when column is stuck (minimum size, bounded) IM_ASSERT(table->MinColumnWidth > 0.0f); const float min_width = table->MinColumnWidth; const float max_width = ImMax(min_width, column_0->WidthMax); // Don't use TableCalcMaxColumnWidth() here as it would rely on MinX from last instance (#7933) column_0_width = ImClamp(column_0_width, min_width, max_width); if (column_0->WidthGiven == column_0_width || column_0->WidthRequest == column_0_width) return; //IMGUI_DEBUG_PRINT("TableSetColumnWidth(%d, %.1f->%.1f)\n", column_0_idx, column_0->WidthGiven, column_0_width); ImGuiTableColumn* column_1 = (column_0->NextEnabledColumn != -1) ? &table->Columns[column_0->NextEnabledColumn] : NULL; // In this surprisingly not simple because of how we support mixing Fixed and multiple Stretch columns. // - All fixed: easy. // - All stretch: easy. // - One or more fixed + one stretch: easy. // - One or more fixed + more than one stretch: tricky. // Qt when manual resize is enabled only supports a single _trailing_ stretch column, we support more cases here. // When forwarding resize from Wn| to Fn+1| we need to be considerate of the _NoResize flag on Fn+1. // FIXME-TABLE: Find a way to rewrite all of this so interactions feel more consistent for the user. // Scenarios: // - F1 F2 F3 resize from F1| or F2| --> ok: alter ->WidthRequested of Fixed column. Subsequent columns will be offset. // - F1 F2 F3 resize from F3| --> ok: alter ->WidthRequested of Fixed column. If active, ScrollX extent can be altered. // - F1 F2 W3 resize from F1| or F2| --> ok: alter ->WidthRequested of Fixed column. If active, ScrollX extent can be altered, but it doesn't make much sense as the Stretch column will always be minimal size. // - F1 F2 W3 resize from W3| --> ok: no-op (disabled by Resize Rule 1) // - W1 W2 W3 resize from W1| or W2| --> ok // - W1 W2 W3 resize from W3| --> ok: no-op (disabled by Resize Rule 1) // - W1 F2 F3 resize from F3| --> ok: no-op (disabled by Resize Rule 1) // - W1 F2 resize from F2| --> ok: no-op (disabled by Resize Rule 1) // - W1 W2 F3 resize from W1| or W2| --> ok // - W1 F2 W3 resize from W1| or F2| --> ok // - F1 W2 F3 resize from W2| --> ok // - F1 W3 F2 resize from W3| --> ok // - W1 F2 F3 resize from W1| --> ok: equivalent to resizing |F2. F3 will not move. // - W1 F2 F3 resize from F2| --> ok // All resizes from a Wx columns are locking other columns. // Possible improvements: // - W1 W2 W3 resize W1| --> to not be stuck, both W2 and W3 would stretch down. Seems possible to fix. Would be most beneficial to simplify resize of all-weighted columns. // - W3 F1 F2 resize W3| --> to not be stuck past F1|, both F1 and F2 would need to stretch down, which would be lossy or ambiguous. Seems hard to fix. // [Resize Rule 1] Can't resize from right of right-most visible column if there is any Stretch column. Implemented in TableUpdateLayout(). // If we have all Fixed columns OR resizing a Fixed column that doesn't come after a Stretch one, we can do an offsetting resize. // This is the preferred resize path if (column_0->Flags & ImGuiTableColumnFlags_WidthFixed) if (!column_1 || table->LeftMostStretchedColumn == -1 || table->Columns[table->LeftMostStretchedColumn].DisplayOrder >= column_0->DisplayOrder) { column_0->WidthRequest = column_0_width; table->IsSettingsDirty = true; return; } // We can also use previous column if there's no next one (this is used when doing an auto-fit on the right-most stretch column) if (column_1 == NULL) column_1 = (column_0->PrevEnabledColumn != -1) ? &table->Columns[column_0->PrevEnabledColumn] : NULL; if (column_1 == NULL) return; // Resizing from right-side of a Stretch column before a Fixed column forward sizing to left-side of fixed column. // (old_a + old_b == new_a + new_b) --> (new_a == old_a + old_b - new_b) float column_1_width = ImMax(column_1->WidthRequest - (column_0_width - column_0->WidthRequest), min_width); column_0_width = column_0->WidthRequest + column_1->WidthRequest - column_1_width; IM_ASSERT(column_0_width > 0.0f && column_1_width > 0.0f); column_0->WidthRequest = column_0_width; column_1->WidthRequest = column_1_width; if ((column_0->Flags | column_1->Flags) & ImGuiTableColumnFlags_WidthStretch) TableUpdateColumnsWeightFromWidth(table); table->IsSettingsDirty = true; } // Disable clipping then auto-fit, will take 2 frames // (we don't take a shortcut for unclipped columns to reduce inconsistencies when e.g. resizing multiple columns) void ImGui::TableSetColumnWidthAutoSingle(ImGuiTable* table, int column_n) { // Single auto width uses auto-fit ImGuiTableColumn* column = &table->Columns[column_n]; if (!column->IsEnabled) return; column->CannotSkipItemsQueue = (1 << 0); table->AutoFitSingleColumn = (ImGuiTableColumnIdx)column_n; } void ImGui::TableSetColumnWidthAutoAll(ImGuiTable* table) { for (int column_n = 0; column_n < table->ColumnsCount; column_n++) { ImGuiTableColumn* column = &table->Columns[column_n]; if (!column->IsEnabled && !(column->Flags & ImGuiTableColumnFlags_WidthStretch)) // Cannot reset weight of hidden stretch column continue; column->CannotSkipItemsQueue = (1 << 0); column->AutoFitQueue = (1 << 1); } } void ImGui::TableUpdateColumnsWeightFromWidth(ImGuiTable* table) { IM_ASSERT(table->LeftMostStretchedColumn != -1 && table->RightMostStretchedColumn != -1); // Measure existing quantities float visible_weight = 0.0f; float visible_width = 0.0f; for (int column_n = 0; column_n < table->ColumnsCount; column_n++) { ImGuiTableColumn* column = &table->Columns[column_n]; if (!column->IsEnabled || !(column->Flags & ImGuiTableColumnFlags_WidthStretch)) continue; IM_ASSERT(column->StretchWeight > 0.0f); visible_weight += column->StretchWeight; visible_width += column->WidthRequest; } IM_ASSERT(visible_weight > 0.0f && visible_width > 0.0f); // Apply new weights for (int column_n = 0; column_n < table->ColumnsCount; column_n++) { ImGuiTableColumn* column = &table->Columns[column_n]; if (!column->IsEnabled || !(column->Flags & ImGuiTableColumnFlags_WidthStretch)) continue; column->StretchWeight = (column->WidthRequest / visible_width) * visible_weight; IM_ASSERT(column->StretchWeight > 0.0f); } } //------------------------------------------------------------------------- // [SECTION] Tables: Drawing //------------------------------------------------------------------------- // - TablePushBackgroundChannel() [Internal] // - TablePopBackgroundChannel() [Internal] // - TableSetupDrawChannels() [Internal] // - TableMergeDrawChannels() [Internal] // - TableGetColumnBorderCol() [Internal] // - TableDrawBorders() [Internal] //------------------------------------------------------------------------- // Bg2 is used by Selectable (and possibly other widgets) to render to the background. // Unlike our Bg0/1 channel which we uses for RowBg/CellBg/Borders and where we guarantee all shapes to be CPU-clipped, the Bg2 channel being widgets-facing will rely on regular ClipRect. void ImGui::TablePushBackgroundChannel() { ImGuiContext& g = *GImGui; ImGuiWindow* window = g.CurrentWindow; ImGuiTable* table = g.CurrentTable; // Optimization: avoid SetCurrentChannel() + PushClipRect() table->HostBackupInnerClipRect = window->ClipRect; SetWindowClipRectBeforeSetChannel(window, table->Bg2ClipRectForDrawCmd); table->DrawSplitter->SetCurrentChannel(window->DrawList, table->Bg2DrawChannelCurrent); } void ImGui::TablePopBackgroundChannel() { ImGuiContext& g = *GImGui; ImGuiWindow* window = g.CurrentWindow; ImGuiTable* table = g.CurrentTable; ImGuiTableColumn* column = &table->Columns[table->CurrentColumn]; // Optimization: avoid PopClipRect() + SetCurrentChannel() SetWindowClipRectBeforeSetChannel(window, table->HostBackupInnerClipRect); table->DrawSplitter->SetCurrentChannel(window->DrawList, column->DrawChannelCurrent); } // Allocate draw channels. Called by TableUpdateLayout() // - We allocate them following storage order instead of display order so reordering columns won't needlessly // increase overall dormant memory cost. // - We isolate headers draw commands in their own channels instead of just altering clip rects. // This is in order to facilitate merging of draw commands. // - After crossing FreezeRowsCount, all columns see their current draw channel changed to a second set of channels. // - We only use the dummy draw channel so we can push a null clipping rectangle into it without affecting other // channels, while simplifying per-row/per-cell overhead. It will be empty and discarded when merged. // - We allocate 1 or 2 background draw channels. This is because we know TablePushBackgroundChannel() is only used for // horizontal spanning. If we allowed vertical spanning we'd need one background draw channel per merge group (1-4). // Draw channel allocation (before merging): // - NoClip --> 2+D+1 channels: bg0/1 + bg2 + foreground (same clip rect == always 1 draw call) // - Clip --> 2+D+N channels // - FreezeRows --> 2+D+N*2 (unless scrolling value is zero) // - FreezeRows || FreezeColunns --> 3+D+N*2 (unless scrolling value is zero) // Where D is 1 if any column is clipped or hidden (dummy channel) otherwise 0. void ImGui::TableSetupDrawChannels(ImGuiTable* table) { const int freeze_row_multiplier = (table->FreezeRowsCount > 0) ? 2 : 1; const int channels_for_row = (table->Flags & ImGuiTableFlags_NoClip) ? 1 : table->ColumnsEnabledCount; const int channels_for_bg = 1 + 1 * freeze_row_multiplier; const int channels_for_dummy = (table->ColumnsEnabledCount < table->ColumnsCount || (memcmp(table->VisibleMaskByIndex, table->EnabledMaskByIndex, ImBitArrayGetStorageSizeInBytes(table->ColumnsCount)) != 0)) ? +1 : 0; const int channels_total = channels_for_bg + (channels_for_row * freeze_row_multiplier) + channels_for_dummy; table->DrawSplitter->Split(table->InnerWindow->DrawList, channels_total); table->DummyDrawChannel = (ImGuiTableDrawChannelIdx)((channels_for_dummy > 0) ? channels_total - 1 : -1); table->Bg2DrawChannelCurrent = TABLE_DRAW_CHANNEL_BG2_FROZEN; table->Bg2DrawChannelUnfrozen = (ImGuiTableDrawChannelIdx)((table->FreezeRowsCount > 0) ? 2 + channels_for_row : TABLE_DRAW_CHANNEL_BG2_FROZEN); int draw_channel_current = 2; for (int column_n = 0; column_n < table->ColumnsCount; column_n++) { ImGuiTableColumn* column = &table->Columns[column_n]; if (column->IsVisibleX && column->IsVisibleY) { column->DrawChannelFrozen = (ImGuiTableDrawChannelIdx)(draw_channel_current); column->DrawChannelUnfrozen = (ImGuiTableDrawChannelIdx)(draw_channel_current + (table->FreezeRowsCount > 0 ? channels_for_row + 1 : 0)); if (!(table->Flags & ImGuiTableFlags_NoClip)) draw_channel_current++; } else { column->DrawChannelFrozen = column->DrawChannelUnfrozen = table->DummyDrawChannel; } column->DrawChannelCurrent = column->DrawChannelFrozen; } // Initial draw cmd starts with a BgClipRect that matches the one of its host, to facilitate merge draw commands by default. // All our cell highlight are manually clipped with BgClipRect. When unfreezing it will be made smaller to fit scrolling rect. // (This technically isn't part of setting up draw channels, but is reasonably related to be done here) table->BgClipRect = table->InnerClipRect; table->Bg0ClipRectForDrawCmd = table->OuterWindow->ClipRect; table->Bg2ClipRectForDrawCmd = table->HostClipRect; IM_ASSERT(table->BgClipRect.Min.y <= table->BgClipRect.Max.y); } // This function reorder draw channels based on matching clip rectangle, to facilitate merging them. Called by EndTable(). // For simplicity we call it TableMergeDrawChannels() but in fact it only reorder channels + overwrite ClipRect, // actual merging is done by table->DrawSplitter.Merge() which is called right after TableMergeDrawChannels(). // // Columns where the contents didn't stray off their local clip rectangle can be merged. To achieve // this we merge their clip rect and make them contiguous in the channel list, so they can be merged // by the call to DrawSplitter.Merge() following to the call to this function. // We reorder draw commands by arranging them into a maximum of 4 distinct groups: // // 1 group: 2 groups: 2 groups: 4 groups: // [ 0. ] no freeze [ 0. ] row freeze [ 01 ] col freeze [ 01 ] row+col freeze // [ .. ] or no scroll [ 2. ] and v-scroll [ .. ] and h-scroll [ 23 ] and v+h-scroll // // Each column itself can use 1 channel (row freeze disabled) or 2 channels (row freeze enabled). // When the contents of a column didn't stray off its limit, we move its channels into the corresponding group // based on its position (within frozen rows/columns groups or not). // At the end of the operation our 1-4 groups will each have a ImDrawCmd using the same ClipRect. // This function assume that each column are pointing to a distinct draw channel, // otherwise merge_group->ChannelsCount will not match set bit count of merge_group->ChannelsMask. // // Column channels will not be merged into one of the 1-4 groups in the following cases: // - The contents stray off its clipping rectangle (we only compare the MaxX value, not the MinX value). // Direct ImDrawList calls won't be taken into account by default, if you use them make sure the ImGui:: bounds // matches, by e.g. calling SetCursorScreenPos(). // - The channel uses more than one draw command itself. We drop all our attempt at merging stuff here.. // we could do better but it's going to be rare and probably not worth the hassle. // Columns for which the draw channel(s) haven't been merged with other will use their own ImDrawCmd. // // This function is particularly tricky to understand.. take a breath. void ImGui::TableMergeDrawChannels(ImGuiTable* table) { ImGuiContext& g = *GImGui; ImDrawListSplitter* splitter = table->DrawSplitter; const bool has_freeze_v = (table->FreezeRowsCount > 0); const bool has_freeze_h = (table->FreezeColumnsCount > 0); IM_ASSERT(splitter->_Current == 0); // Track which groups we are going to attempt to merge, and which channels goes into each group. struct MergeGroup { ImRect ClipRect; int ChannelsCount = 0; ImBitArrayPtr ChannelsMask = NULL; }; int merge_group_mask = 0x00; MergeGroup merge_groups[4]; // Use a reusable temp buffer for the merge masks as they are dynamically sized. const int max_draw_channels = (4 + table->ColumnsCount * 2); const int size_for_masks_bitarrays_one = (int)ImBitArrayGetStorageSizeInBytes(max_draw_channels); g.TempBuffer.reserve(size_for_masks_bitarrays_one * 5); memset(g.TempBuffer.Data, 0, size_for_masks_bitarrays_one * 5); for (int n = 0; n < IM_ARRAYSIZE(merge_groups); n++) merge_groups[n].ChannelsMask = (ImBitArrayPtr)(void*)(g.TempBuffer.Data + (size_for_masks_bitarrays_one * n)); ImBitArrayPtr remaining_mask = (ImBitArrayPtr)(void*)(g.TempBuffer.Data + (size_for_masks_bitarrays_one * 4)); // 1. Scan channels and take note of those which can be merged for (int column_n = 0; column_n < table->ColumnsCount; column_n++) { if (!IM_BITARRAY_TESTBIT(table->VisibleMaskByIndex, column_n)) continue; ImGuiTableColumn* column = &table->Columns[column_n]; const int merge_group_sub_count = has_freeze_v ? 2 : 1; for (int merge_group_sub_n = 0; merge_group_sub_n < merge_group_sub_count; merge_group_sub_n++) { const int channel_no = (merge_group_sub_n == 0) ? column->DrawChannelFrozen : column->DrawChannelUnfrozen; // Don't attempt to merge if there are multiple draw calls within the column ImDrawChannel* src_channel = &splitter->_Channels[channel_no]; if (src_channel->_CmdBuffer.Size > 0 && src_channel->_CmdBuffer.back().ElemCount == 0 && src_channel->_CmdBuffer.back().UserCallback == NULL) // Equivalent of PopUnusedDrawCmd() src_channel->_CmdBuffer.pop_back(); if (src_channel->_CmdBuffer.Size != 1) continue; // Find out the width of this merge group and check if it will fit in our column // (note that we assume that rendering didn't stray on the left direction. we should need a CursorMinPos to detect it) if (!(column->Flags & ImGuiTableColumnFlags_NoClip)) { float content_max_x; if (!has_freeze_v) content_max_x = ImMax(column->ContentMaxXUnfrozen, column->ContentMaxXHeadersUsed); // No row freeze else if (merge_group_sub_n == 0) content_max_x = ImMax(column->ContentMaxXFrozen, column->ContentMaxXHeadersUsed); // Row freeze: use width before freeze else content_max_x = column->ContentMaxXUnfrozen; // Row freeze: use width after freeze if (content_max_x > column->ClipRect.Max.x) continue; } const int merge_group_n = (has_freeze_h && column_n < table->FreezeColumnsCount ? 0 : 1) + (has_freeze_v && merge_group_sub_n == 0 ? 0 : 2); IM_ASSERT(channel_no < max_draw_channels); MergeGroup* merge_group = &merge_groups[merge_group_n]; if (merge_group->ChannelsCount == 0) merge_group->ClipRect = ImRect(+FLT_MAX, +FLT_MAX, -FLT_MAX, -FLT_MAX); ImBitArraySetBit(merge_group->ChannelsMask, channel_no); merge_group->ChannelsCount++; merge_group->ClipRect.Add(src_channel->_CmdBuffer[0].ClipRect); merge_group_mask |= (1 << merge_group_n); } // Invalidate current draw channel // (we don't clear DrawChannelFrozen/DrawChannelUnfrozen solely to facilitate debugging/later inspection of data) column->DrawChannelCurrent = (ImGuiTableDrawChannelIdx)-1; } // [DEBUG] Display merge groups #if 0 if (g.IO.KeyShift) for (int merge_group_n = 0; merge_group_n < IM_ARRAYSIZE(merge_groups); merge_group_n++) { MergeGroup* merge_group = &merge_groups[merge_group_n]; if (merge_group->ChannelsCount == 0) continue; char buf[32]; ImFormatString(buf, 32, "MG%d:%d", merge_group_n, merge_group->ChannelsCount); ImVec2 text_pos = merge_group->ClipRect.Min + ImVec2(4, 4); ImVec2 text_size = CalcTextSize(buf, NULL); GetForegroundDrawList()->AddRectFilled(text_pos, text_pos + text_size, IM_COL32(0, 0, 0, 255)); GetForegroundDrawList()->AddText(text_pos, IM_COL32(255, 255, 0, 255), buf, NULL); GetForegroundDrawList()->AddRect(merge_group->ClipRect.Min, merge_group->ClipRect.Max, IM_COL32(255, 255, 0, 255)); } #endif // 2. Rewrite channel list in our preferred order if (merge_group_mask != 0) { // We skip channel 0 (Bg0/Bg1) and 1 (Bg2 frozen) from the shuffling since they won't move - see channels allocation in TableSetupDrawChannels(). const int LEADING_DRAW_CHANNELS = 2; g.DrawChannelsTempMergeBuffer.resize(splitter->_Count - LEADING_DRAW_CHANNELS); // Use shared temporary storage so the allocation gets amortized ImDrawChannel* dst_tmp = g.DrawChannelsTempMergeBuffer.Data; ImBitArraySetBitRange(remaining_mask, LEADING_DRAW_CHANNELS, splitter->_Count); ImBitArrayClearBit(remaining_mask, table->Bg2DrawChannelUnfrozen); IM_ASSERT(has_freeze_v == false || table->Bg2DrawChannelUnfrozen != TABLE_DRAW_CHANNEL_BG2_FROZEN); int remaining_count = splitter->_Count - (has_freeze_v ? LEADING_DRAW_CHANNELS + 1 : LEADING_DRAW_CHANNELS); //ImRect host_rect = (table->InnerWindow == table->OuterWindow) ? table->InnerClipRect : table->HostClipRect; ImRect host_rect = table->HostClipRect; for (int merge_group_n = 0; merge_group_n < IM_ARRAYSIZE(merge_groups); merge_group_n++) { if (int merge_channels_count = merge_groups[merge_group_n].ChannelsCount) { MergeGroup* merge_group = &merge_groups[merge_group_n]; ImRect merge_clip_rect = merge_group->ClipRect; // Extend outer-most clip limits to match those of host, so draw calls can be merged even if // outer-most columns have some outer padding offsetting them from their parent ClipRect. // The principal cases this is dealing with are: // - On a same-window table (not scrolling = single group), all fitting columns ClipRect -> will extend and match host ClipRect -> will merge // - Columns can use padding and have left-most ClipRect.Min.x and right-most ClipRect.Max.x != from host ClipRect -> will extend and match host ClipRect -> will merge // FIXME-TABLE FIXME-WORKRECT: We are wasting a merge opportunity on tables without scrolling if column doesn't fit // within host clip rect, solely because of the half-padding difference between window->WorkRect and window->InnerClipRect. if ((merge_group_n & 1) == 0 || !has_freeze_h) merge_clip_rect.Min.x = ImMin(merge_clip_rect.Min.x, host_rect.Min.x); if ((merge_group_n & 2) == 0 || !has_freeze_v) merge_clip_rect.Min.y = ImMin(merge_clip_rect.Min.y, host_rect.Min.y); if ((merge_group_n & 1) != 0) merge_clip_rect.Max.x = ImMax(merge_clip_rect.Max.x, host_rect.Max.x); if ((merge_group_n & 2) != 0 && (table->Flags & ImGuiTableFlags_NoHostExtendY) == 0) merge_clip_rect.Max.y = ImMax(merge_clip_rect.Max.y, host_rect.Max.y); //GetForegroundDrawList()->AddRect(merge_group->ClipRect.Min, merge_group->ClipRect.Max, IM_COL32(255, 0, 0, 200), 0.0f, 0, 1.0f); // [DEBUG] //GetForegroundDrawList()->AddLine(merge_group->ClipRect.Min, merge_clip_rect.Min, IM_COL32(255, 100, 0, 200)); //GetForegroundDrawList()->AddLine(merge_group->ClipRect.Max, merge_clip_rect.Max, IM_COL32(255, 100, 0, 200)); remaining_count -= merge_group->ChannelsCount; for (int n = 0; n < (size_for_masks_bitarrays_one >> 2); n++) remaining_mask[n] &= ~merge_group->ChannelsMask[n]; for (int n = 0; n < splitter->_Count && merge_channels_count != 0; n++) { // Copy + overwrite new clip rect if (!IM_BITARRAY_TESTBIT(merge_group->ChannelsMask, n)) continue; IM_BITARRAY_CLEARBIT(merge_group->ChannelsMask, n); merge_channels_count--; ImDrawChannel* channel = &splitter->_Channels[n]; IM_ASSERT(channel->_CmdBuffer.Size == 1 && merge_clip_rect.Contains(ImRect(channel->_CmdBuffer[0].ClipRect))); channel->_CmdBuffer[0].ClipRect = merge_clip_rect.ToVec4(); memcpy(dst_tmp++, channel, sizeof(ImDrawChannel)); } } // Make sure Bg2DrawChannelUnfrozen appears in the middle of our groups (whereas Bg0/Bg1 and Bg2 frozen are fixed to 0 and 1) if (merge_group_n == 1 && has_freeze_v) memcpy(dst_tmp++, &splitter->_Channels[table->Bg2DrawChannelUnfrozen], sizeof(ImDrawChannel)); } // Append unmergeable channels that we didn't reorder at the end of the list for (int n = 0; n < splitter->_Count && remaining_count != 0; n++) { if (!IM_BITARRAY_TESTBIT(remaining_mask, n)) continue; ImDrawChannel* channel = &splitter->_Channels[n]; memcpy(dst_tmp++, channel, sizeof(ImDrawChannel)); remaining_count--; } IM_ASSERT(dst_tmp == g.DrawChannelsTempMergeBuffer.Data + g.DrawChannelsTempMergeBuffer.Size); memcpy(splitter->_Channels.Data + LEADING_DRAW_CHANNELS, g.DrawChannelsTempMergeBuffer.Data, (splitter->_Count - LEADING_DRAW_CHANNELS) * sizeof(ImDrawChannel)); } } static ImU32 TableGetColumnBorderCol(ImGuiTable* table, int order_n, int column_n) { const bool is_hovered = (table->HoveredColumnBorder == column_n); const bool is_resized = (table->ResizedColumn == column_n) && (table->InstanceInteracted == table->InstanceCurrent); const bool is_frozen_separator = (table->FreezeColumnsCount == order_n + 1); if (is_resized || is_hovered) return ImGui::GetColorU32(is_resized ? ImGuiCol_SeparatorActive : ImGuiCol_SeparatorHovered); if (is_frozen_separator || (table->Flags & (ImGuiTableFlags_NoBordersInBody | ImGuiTableFlags_NoBordersInBodyUntilResize))) return table->BorderColorStrong; return table->BorderColorLight; } // FIXME-TABLE: This is a mess, need to redesign how we render borders (as some are also done in TableEndRow) void ImGui::TableDrawBorders(ImGuiTable* table) { ImGuiWindow* inner_window = table->InnerWindow; if (!table->OuterWindow->ClipRect.Overlaps(table->OuterRect)) return; ImDrawList* inner_drawlist = inner_window->DrawList; table->DrawSplitter->SetCurrentChannel(inner_drawlist, TABLE_DRAW_CHANNEL_BG0); inner_drawlist->PushClipRect(table->Bg0ClipRectForDrawCmd.Min, table->Bg0ClipRectForDrawCmd.Max, false); // Draw inner border and resizing feedback ImGuiTableInstanceData* table_instance = TableGetInstanceData(table, table->InstanceCurrent); const float border_size = TABLE_BORDER_SIZE; const float draw_y1 = ImMax(table->InnerRect.Min.y, (table->FreezeRowsCount >= 1 ? table->InnerRect.Min.y : table->WorkRect.Min.y) + table->AngledHeadersHeight) + ((table->Flags & ImGuiTableFlags_BordersOuterH) ? 1.0f : 0.0f); const float draw_y2_body = table->InnerRect.Max.y; const float draw_y2_head = table->IsUsingHeaders ? ImMin(table->InnerRect.Max.y, (table->FreezeRowsCount >= 1 ? table->InnerRect.Min.y : table->WorkRect.Min.y) + table_instance->LastTopHeadersRowHeight) : draw_y1; if (table->Flags & ImGuiTableFlags_BordersInnerV) { for (int order_n = 0; order_n < table->ColumnsCount; order_n++) { if (!IM_BITARRAY_TESTBIT(table->EnabledMaskByDisplayOrder, order_n)) continue; const int column_n = table->DisplayOrderToIndex[order_n]; ImGuiTableColumn* column = &table->Columns[column_n]; const bool is_hovered = (table->HoveredColumnBorder == column_n); const bool is_resized = (table->ResizedColumn == column_n) && (table->InstanceInteracted == table->InstanceCurrent); const bool is_resizable = (column->Flags & (ImGuiTableColumnFlags_NoResize | ImGuiTableColumnFlags_NoDirectResize_)) == 0; const bool is_frozen_separator = (table->FreezeColumnsCount == order_n + 1); if (column->MaxX > table->InnerClipRect.Max.x && !is_resized) continue; // Decide whether right-most column is visible if (column->NextEnabledColumn == -1 && !is_resizable) if ((table->Flags & ImGuiTableFlags_SizingMask_) != ImGuiTableFlags_SizingFixedSame || (table->Flags & ImGuiTableFlags_NoHostExtendX)) continue; if (column->MaxX <= column->ClipRect.Min.x) // FIXME-TABLE FIXME-STYLE: Assume BorderSize==1, this is problematic if we want to increase the border size.. continue; // Draw in outer window so right-most column won't be clipped // Always draw full height border when being resized/hovered, or on the delimitation of frozen column scrolling. float draw_y2 = (is_hovered || is_resized || is_frozen_separator || (table->Flags & (ImGuiTableFlags_NoBordersInBody | ImGuiTableFlags_NoBordersInBodyUntilResize)) == 0) ? draw_y2_body : draw_y2_head; if (draw_y2 > draw_y1) inner_drawlist->AddLine(ImVec2(column->MaxX, draw_y1), ImVec2(column->MaxX, draw_y2), TableGetColumnBorderCol(table, order_n, column_n), border_size); } } // Draw outer border // FIXME: could use AddRect or explicit VLine/HLine helper? if (table->Flags & ImGuiTableFlags_BordersOuter) { // Display outer border offset by 1 which is a simple way to display it without adding an extra draw call // (Without the offset, in outer_window it would be rendered behind cells, because child windows are above their // parent. In inner_window, it won't reach out over scrollbars. Another weird solution would be to display part // of it in inner window, and the part that's over scrollbars in the outer window..) // Either solution currently won't allow us to use a larger border size: the border would clipped. const ImRect outer_border = table->OuterRect; const ImU32 outer_col = table->BorderColorStrong; if ((table->Flags & ImGuiTableFlags_BordersOuter) == ImGuiTableFlags_BordersOuter) { inner_drawlist->AddRect(outer_border.Min, outer_border.Max, outer_col, 0.0f, 0, border_size); } else if (table->Flags & ImGuiTableFlags_BordersOuterV) { inner_drawlist->AddLine(outer_border.Min, ImVec2(outer_border.Min.x, outer_border.Max.y), outer_col, border_size); inner_drawlist->AddLine(ImVec2(outer_border.Max.x, outer_border.Min.y), outer_border.Max, outer_col, border_size); } else if (table->Flags & ImGuiTableFlags_BordersOuterH) { inner_drawlist->AddLine(outer_border.Min, ImVec2(outer_border.Max.x, outer_border.Min.y), outer_col, border_size); inner_drawlist->AddLine(ImVec2(outer_border.Min.x, outer_border.Max.y), outer_border.Max, outer_col, border_size); } } if ((table->Flags & ImGuiTableFlags_BordersInnerH) && table->RowPosY2 < table->OuterRect.Max.y) { // Draw bottom-most row border between it is above outer border. const float border_y = table->RowPosY2; if (border_y >= table->BgClipRect.Min.y && border_y < table->BgClipRect.Max.y) inner_drawlist->AddLine(ImVec2(table->BorderX1, border_y), ImVec2(table->BorderX2, border_y), table->BorderColorLight, border_size); } inner_drawlist->PopClipRect(); } //------------------------------------------------------------------------- // [SECTION] Tables: Sorting //------------------------------------------------------------------------- // - TableGetSortSpecs() // - TableFixColumnSortDirection() [Internal] // - TableGetColumnNextSortDirection() [Internal] // - TableSetColumnSortDirection() [Internal] // - TableSortSpecsSanitize() [Internal] // - TableSortSpecsBuild() [Internal] //------------------------------------------------------------------------- // Return NULL if no sort specs (most often when ImGuiTableFlags_Sortable is not set) // When 'sort_specs->SpecsDirty == true' you should sort your data. It will be true when sorting specs have // changed since last call, or the first time. Make sure to set 'SpecsDirty = false' after sorting, // else you may wastefully sort your data every frame! // Lifetime: don't hold on this pointer over multiple frames or past any subsequent call to BeginTable()! ImGuiTableSortSpecs* ImGui::TableGetSortSpecs() { ImGuiContext& g = *GImGui; ImGuiTable* table = g.CurrentTable; IM_ASSERT(table != NULL); if (!(table->Flags & ImGuiTableFlags_Sortable)) return NULL; // Require layout (in case TableHeadersRow() hasn't been called) as it may alter IsSortSpecsDirty in some paths. if (!table->IsLayoutLocked) TableUpdateLayout(table); TableSortSpecsBuild(table); return &table->SortSpecs; } static inline ImGuiSortDirection TableGetColumnAvailSortDirection(ImGuiTableColumn* column, int n) { IM_ASSERT(n < column->SortDirectionsAvailCount); return (ImGuiSortDirection)((column->SortDirectionsAvailList >> (n << 1)) & 0x03); } // Fix sort direction if currently set on a value which is unavailable (e.g. activating NoSortAscending/NoSortDescending) void ImGui::TableFixColumnSortDirection(ImGuiTable* table, ImGuiTableColumn* column) { if (column->SortOrder == -1 || (column->SortDirectionsAvailMask & (1 << column->SortDirection)) != 0) return; column->SortDirection = (ImU8)TableGetColumnAvailSortDirection(column, 0); table->IsSortSpecsDirty = true; } // Calculate next sort direction that would be set after clicking the column // - If the PreferSortDescending flag is set, we will default to a Descending direction on the first click. // - Note that the PreferSortAscending flag is never checked, it is essentially the default and therefore a no-op. IM_STATIC_ASSERT(ImGuiSortDirection_None == 0 && ImGuiSortDirection_Ascending == 1 && ImGuiSortDirection_Descending == 2); ImGuiSortDirection ImGui::TableGetColumnNextSortDirection(ImGuiTableColumn* column) { IM_ASSERT(column->SortDirectionsAvailCount > 0); if (column->SortOrder == -1) return TableGetColumnAvailSortDirection(column, 0); for (int n = 0; n < 3; n++) if (column->SortDirection == TableGetColumnAvailSortDirection(column, n)) return TableGetColumnAvailSortDirection(column, (n + 1) % column->SortDirectionsAvailCount); IM_ASSERT(0); return ImGuiSortDirection_None; } // Note that the NoSortAscending/NoSortDescending flags are processed in TableSortSpecsSanitize(), and they may change/revert // the value of SortDirection. We could technically also do it here but it would be unnecessary and duplicate code. void ImGui::TableSetColumnSortDirection(int column_n, ImGuiSortDirection sort_direction, bool append_to_sort_specs) { ImGuiContext& g = *GImGui; ImGuiTable* table = g.CurrentTable; if (!(table->Flags & ImGuiTableFlags_SortMulti)) append_to_sort_specs = false; if (!(table->Flags & ImGuiTableFlags_SortTristate)) IM_ASSERT(sort_direction != ImGuiSortDirection_None); ImGuiTableColumnIdx sort_order_max = 0; if (append_to_sort_specs) for (int other_column_n = 0; other_column_n < table->ColumnsCount; other_column_n++) sort_order_max = ImMax(sort_order_max, table->Columns[other_column_n].SortOrder); ImGuiTableColumn* column = &table->Columns[column_n]; column->SortDirection = (ImU8)sort_direction; if (column->SortDirection == ImGuiSortDirection_None) column->SortOrder = -1; else if (column->SortOrder == -1 || !append_to_sort_specs) column->SortOrder = append_to_sort_specs ? sort_order_max + 1 : 0; for (int other_column_n = 0; other_column_n < table->ColumnsCount; other_column_n++) { ImGuiTableColumn* other_column = &table->Columns[other_column_n]; if (other_column != column && !append_to_sort_specs) other_column->SortOrder = -1; TableFixColumnSortDirection(table, other_column); } table->IsSettingsDirty = true; table->IsSortSpecsDirty = true; } void ImGui::TableSortSpecsSanitize(ImGuiTable* table) { IM_ASSERT(table->Flags & ImGuiTableFlags_Sortable); // Clear SortOrder from hidden column and verify that there's no gap or duplicate. int sort_order_count = 0; ImU64 sort_order_mask = 0x00; for (int column_n = 0; column_n < table->ColumnsCount; column_n++) { ImGuiTableColumn* column = &table->Columns[column_n]; if (column->SortOrder != -1 && !column->IsEnabled) column->SortOrder = -1; if (column->SortOrder == -1) continue; sort_order_count++; sort_order_mask |= ((ImU64)1 << column->SortOrder); IM_ASSERT(sort_order_count < (int)sizeof(sort_order_mask) * 8); } const bool need_fix_linearize = ((ImU64)1 << sort_order_count) != (sort_order_mask + 1); const bool need_fix_single_sort_order = (sort_order_count > 1) && !(table->Flags & ImGuiTableFlags_SortMulti); if (need_fix_linearize || need_fix_single_sort_order) { ImU64 fixed_mask = 0x00; for (int sort_n = 0; sort_n < sort_order_count; sort_n++) { // Fix: Rewrite sort order fields if needed so they have no gap or duplicate. // (e.g. SortOrder 0 disappeared, SortOrder 1..2 exists --> rewrite then as SortOrder 0..1) int column_with_smallest_sort_order = -1; for (int column_n = 0; column_n < table->ColumnsCount; column_n++) if ((fixed_mask & ((ImU64)1 << (ImU64)column_n)) == 0 && table->Columns[column_n].SortOrder != -1) if (column_with_smallest_sort_order == -1 || table->Columns[column_n].SortOrder < table->Columns[column_with_smallest_sort_order].SortOrder) column_with_smallest_sort_order = column_n; IM_ASSERT(column_with_smallest_sort_order != -1); fixed_mask |= ((ImU64)1 << column_with_smallest_sort_order); table->Columns[column_with_smallest_sort_order].SortOrder = (ImGuiTableColumnIdx)sort_n; // Fix: Make sure only one column has a SortOrder if ImGuiTableFlags_MultiSortable is not set. if (need_fix_single_sort_order) { sort_order_count = 1; for (int column_n = 0; column_n < table->ColumnsCount; column_n++) if (column_n != column_with_smallest_sort_order) table->Columns[column_n].SortOrder = -1; break; } } } // Fallback default sort order (if no column with the ImGuiTableColumnFlags_DefaultSort flag) if (sort_order_count == 0 && !(table->Flags & ImGuiTableFlags_SortTristate)) for (int column_n = 0; column_n < table->ColumnsCount; column_n++) { ImGuiTableColumn* column = &table->Columns[column_n]; if (column->IsEnabled && !(column->Flags & ImGuiTableColumnFlags_NoSort)) { sort_order_count = 1; column->SortOrder = 0; column->SortDirection = (ImU8)TableGetColumnAvailSortDirection(column, 0); break; } } table->SortSpecsCount = (ImGuiTableColumnIdx)sort_order_count; } void ImGui::TableSortSpecsBuild(ImGuiTable* table) { bool dirty = table->IsSortSpecsDirty; if (dirty) { TableSortSpecsSanitize(table); table->SortSpecsMulti.resize(table->SortSpecsCount <= 1 ? 0 : table->SortSpecsCount); table->SortSpecs.SpecsDirty = true; // Mark as dirty for user table->IsSortSpecsDirty = false; // Mark as not dirty for us } // Write output // May be able to move all SortSpecs data from table (48 bytes) to ImGuiTableTempData if we decide to write it back on every BeginTable() ImGuiTableColumnSortSpecs* sort_specs = (table->SortSpecsCount == 0) ? NULL : (table->SortSpecsCount == 1) ? &table->SortSpecsSingle : table->SortSpecsMulti.Data; if (dirty && sort_specs != NULL) for (int column_n = 0; column_n < table->ColumnsCount; column_n++) { ImGuiTableColumn* column = &table->Columns[column_n]; if (column->SortOrder == -1) continue; IM_ASSERT(column->SortOrder < table->SortSpecsCount); ImGuiTableColumnSortSpecs* sort_spec = &sort_specs[column->SortOrder]; sort_spec->ColumnUserID = column->UserID; sort_spec->ColumnIndex = (ImGuiTableColumnIdx)column_n; sort_spec->SortOrder = (ImGuiTableColumnIdx)column->SortOrder; sort_spec->SortDirection = (ImGuiSortDirection)column->SortDirection; } table->SortSpecs.Specs = sort_specs; table->SortSpecs.SpecsCount = table->SortSpecsCount; } //------------------------------------------------------------------------- // [SECTION] Tables: Headers //------------------------------------------------------------------------- // - TableGetHeaderRowHeight() [Internal] // - TableGetHeaderAngledMaxLabelWidth() [Internal] // - TableHeadersRow() // - TableHeader() // - TableAngledHeadersRow() // - TableAngledHeadersRowEx() [Internal] //------------------------------------------------------------------------- float ImGui::TableGetHeaderRowHeight() { // Caring for a minor edge case: // Calculate row height, for the unlikely case that some labels may be taller than others. // If we didn't do that, uneven header height would highlight but smaller one before the tallest wouldn't catch input for all height. // In your custom header row you may omit this all together and just call TableNextRow() without a height... ImGuiContext& g = *GImGui; ImGuiTable* table = g.CurrentTable; float row_height = g.FontSize; for (int column_n = 0; column_n < table->ColumnsCount; column_n++) if (IM_BITARRAY_TESTBIT(table->EnabledMaskByIndex, column_n)) if ((table->Columns[column_n].Flags & ImGuiTableColumnFlags_NoHeaderLabel) == 0) row_height = ImMax(row_height, CalcTextSize(TableGetColumnName(table, column_n)).y); return row_height + g.Style.CellPadding.y * 2.0f; } float ImGui::TableGetHeaderAngledMaxLabelWidth() { ImGuiContext& g = *GImGui; ImGuiTable* table = g.CurrentTable; float width = 0.0f; for (int column_n = 0; column_n < table->ColumnsCount; column_n++) if (IM_BITARRAY_TESTBIT(table->EnabledMaskByIndex, column_n)) if (table->Columns[column_n].Flags & ImGuiTableColumnFlags_AngledHeader) width = ImMax(width, CalcTextSize(TableGetColumnName(table, column_n), NULL, true).x); return width + g.Style.CellPadding.y * 2.0f; // Swap padding } // [Public] This is a helper to output TableHeader() calls based on the column names declared in TableSetupColumn(). // The intent is that advanced users willing to create customized headers would not need to use this helper // and can create their own! For example: TableHeader() may be preceded by Checkbox() or other custom widgets. // See 'Demo->Tables->Custom headers' for a demonstration of implementing a custom version of this. // This code is intentionally written to not make much use of internal functions, to give you better direction // if you need to write your own. // FIXME-TABLE: TableOpenContextMenu() and TableGetHeaderRowHeight() are not public. void ImGui::TableHeadersRow() { ImGuiContext& g = *GImGui; ImGuiTable* table = g.CurrentTable; IM_ASSERT(table != NULL && "Need to call TableHeadersRow() after BeginTable()!"); // Call layout if not already done. This is automatically done by TableNextRow: we do it here _only_ to make // it easier to debug-step in TableUpdateLayout(). Your own version of this function doesn't need this. if (!table->IsLayoutLocked) TableUpdateLayout(table); // Open row const float row_height = TableGetHeaderRowHeight(); TableNextRow(ImGuiTableRowFlags_Headers, row_height); const float row_y1 = GetCursorScreenPos().y; if (table->HostSkipItems) // Merely an optimization, you may skip in your own code. return; const int columns_count = TableGetColumnCount(); for (int column_n = 0; column_n < columns_count; column_n++) { if (!TableSetColumnIndex(column_n)) continue; // Push an id to allow empty/unnamed headers. This is also idiomatic as it ensure there is a consistent ID path to access columns (for e.g. automation) const char* name = (TableGetColumnFlags(column_n) & ImGuiTableColumnFlags_NoHeaderLabel) ? "" : TableGetColumnName(column_n); PushID(column_n); TableHeader(name); PopID(); } // Allow opening popup from the right-most section after the last column. ImVec2 mouse_pos = ImGui::GetMousePos(); if (IsMouseReleased(1) && TableGetHoveredColumn() == columns_count) if (mouse_pos.y >= row_y1 && mouse_pos.y < row_y1 + row_height) TableOpenContextMenu(columns_count); // Will open a non-column-specific popup. } // Emit a column header (text + optional sort order) // We cpu-clip text here so that all columns headers can be merged into a same draw call. // Note that because of how we cpu-clip and display sorting indicators, you _cannot_ use SameLine() after a TableHeader() void ImGui::TableHeader(const char* label) { ImGuiContext& g = *GImGui; ImGuiWindow* window = g.CurrentWindow; if (window->SkipItems) return; ImGuiTable* table = g.CurrentTable; IM_ASSERT(table != NULL && "Need to call TableHeader() after BeginTable()!"); IM_ASSERT(table->CurrentColumn != -1); const int column_n = table->CurrentColumn; ImGuiTableColumn* column = &table->Columns[column_n]; // Label if (label == NULL) label = ""; const char* label_end = FindRenderedTextEnd(label); ImVec2 label_size = CalcTextSize(label, label_end, true); ImVec2 label_pos = window->DC.CursorPos; // If we already got a row height, there's use that. // FIXME-TABLE: Padding problem if the correct outer-padding CellBgRect strays off our ClipRect? ImRect cell_r = TableGetCellBgRect(table, column_n); float label_height = ImMax(label_size.y, table->RowMinHeight - table->RowCellPaddingY * 2.0f); // Calculate ideal size for sort order arrow float w_arrow = 0.0f; float w_sort_text = 0.0f; bool sort_arrow = false; char sort_order_suf[4] = ""; const float ARROW_SCALE = 0.65f; if ((table->Flags & ImGuiTableFlags_Sortable) && !(column->Flags & ImGuiTableColumnFlags_NoSort)) { w_arrow = ImTrunc(g.FontSize * ARROW_SCALE + g.Style.FramePadding.x); if (column->SortOrder != -1) sort_arrow = true; if (column->SortOrder > 0) { ImFormatString(sort_order_suf, IM_ARRAYSIZE(sort_order_suf), "%d", column->SortOrder + 1); w_sort_text = g.Style.ItemInnerSpacing.x + CalcTextSize(sort_order_suf).x; } } // We feed our unclipped width to the column without writing on CursorMaxPos, so that column is still considered for merging. float max_pos_x = label_pos.x + label_size.x + w_sort_text + w_arrow; column->ContentMaxXHeadersUsed = ImMax(column->ContentMaxXHeadersUsed, sort_arrow ? cell_r.Max.x : ImMin(max_pos_x, cell_r.Max.x)); column->ContentMaxXHeadersIdeal = ImMax(column->ContentMaxXHeadersIdeal, max_pos_x); // Keep header highlighted when context menu is open. ImGuiID id = window->GetID(label); ImRect bb(cell_r.Min.x, cell_r.Min.y, cell_r.Max.x, ImMax(cell_r.Max.y, cell_r.Min.y + label_height + g.Style.CellPadding.y * 2.0f)); ItemSize(ImVec2(0.0f, label_height)); // Don't declare unclipped width, it'll be fed ContentMaxPosHeadersIdeal if (!ItemAdd(bb, id)) return; //GetForegroundDrawList()->AddRect(cell_r.Min, cell_r.Max, IM_COL32(255, 0, 0, 255)); // [DEBUG] //GetForegroundDrawList()->AddRect(bb.Min, bb.Max, IM_COL32(255, 0, 0, 255)); // [DEBUG] // Using AllowOverlap mode because we cover the whole cell, and we want user to be able to submit subsequent items. const bool highlight = (table->HighlightColumnHeader == column_n); bool hovered, held; bool pressed = ButtonBehavior(bb, id, &hovered, &held, ImGuiButtonFlags_AllowOverlap); if (held || hovered || highlight) { const ImU32 col = GetColorU32(held ? ImGuiCol_HeaderActive : hovered ? ImGuiCol_HeaderHovered : ImGuiCol_Header); //RenderFrame(bb.Min, bb.Max, col, false, 0.0f); TableSetBgColor(ImGuiTableBgTarget_CellBg, col, table->CurrentColumn); } else { // Submit single cell bg color in the case we didn't submit a full header row if ((table->RowFlags & ImGuiTableRowFlags_Headers) == 0) TableSetBgColor(ImGuiTableBgTarget_CellBg, GetColorU32(ImGuiCol_TableHeaderBg), table->CurrentColumn); } RenderNavCursor(bb, id, ImGuiNavRenderCursorFlags_Compact | ImGuiNavRenderCursorFlags_NoRounding); if (held) table->HeldHeaderColumn = (ImGuiTableColumnIdx)column_n; window->DC.CursorPos.y -= g.Style.ItemSpacing.y * 0.5f; // Drag and drop to re-order columns. // FIXME-TABLE: Scroll request while reordering a column and it lands out of the scrolling zone. if (held && (table->Flags & ImGuiTableFlags_Reorderable) && IsMouseDragging(0) && !g.DragDropActive) { // While moving a column it will jump on the other side of the mouse, so we also test for MouseDelta.x table->ReorderColumn = (ImGuiTableColumnIdx)column_n; table->InstanceInteracted = table->InstanceCurrent; // We don't reorder: through the frozen<>unfrozen line, or through a column that is marked with ImGuiTableColumnFlags_NoReorder. if (g.IO.MouseDelta.x < 0.0f && g.IO.MousePos.x < cell_r.Min.x) if (ImGuiTableColumn* prev_column = (column->PrevEnabledColumn != -1) ? &table->Columns[column->PrevEnabledColumn] : NULL) if (!((column->Flags | prev_column->Flags) & ImGuiTableColumnFlags_NoReorder)) if ((column->IndexWithinEnabledSet < table->FreezeColumnsRequest) == (prev_column->IndexWithinEnabledSet < table->FreezeColumnsRequest)) table->ReorderColumnDir = -1; if (g.IO.MouseDelta.x > 0.0f && g.IO.MousePos.x > cell_r.Max.x) if (ImGuiTableColumn* next_column = (column->NextEnabledColumn != -1) ? &table->Columns[column->NextEnabledColumn] : NULL) if (!((column->Flags | next_column->Flags) & ImGuiTableColumnFlags_NoReorder)) if ((column->IndexWithinEnabledSet < table->FreezeColumnsRequest) == (next_column->IndexWithinEnabledSet < table->FreezeColumnsRequest)) table->ReorderColumnDir = +1; } // Sort order arrow const float ellipsis_max = ImMax(cell_r.Max.x - w_arrow - w_sort_text, label_pos.x); if ((table->Flags & ImGuiTableFlags_Sortable) && !(column->Flags & ImGuiTableColumnFlags_NoSort)) { if (column->SortOrder != -1) { float x = ImMax(cell_r.Min.x, cell_r.Max.x - w_arrow - w_sort_text); float y = label_pos.y; if (column->SortOrder > 0) { PushStyleColor(ImGuiCol_Text, GetColorU32(ImGuiCol_Text, 0.70f)); RenderText(ImVec2(x + g.Style.ItemInnerSpacing.x, y), sort_order_suf); PopStyleColor(); x += w_sort_text; } RenderArrow(window->DrawList, ImVec2(x, y), GetColorU32(ImGuiCol_Text), column->SortDirection == ImGuiSortDirection_Ascending ? ImGuiDir_Up : ImGuiDir_Down, ARROW_SCALE); } // Handle clicking on column header to adjust Sort Order if (pressed && table->ReorderColumn != column_n) { ImGuiSortDirection sort_direction = TableGetColumnNextSortDirection(column); TableSetColumnSortDirection(column_n, sort_direction, g.IO.KeyShift); } } // Render clipped label. Clipping here ensure that in the majority of situations, all our header cells will // be merged into a single draw call. //window->DrawList->AddCircleFilled(ImVec2(ellipsis_max, label_pos.y), 40, IM_COL32_WHITE); RenderTextEllipsis(window->DrawList, label_pos, ImVec2(ellipsis_max, label_pos.y + label_height + g.Style.FramePadding.y), ellipsis_max, ellipsis_max, label, label_end, &label_size); const bool text_clipped = label_size.x > (ellipsis_max - label_pos.x); if (text_clipped && hovered && g.ActiveId == 0) SetItemTooltip("%.*s", (int)(label_end - label), label); // We don't use BeginPopupContextItem() because we want the popup to stay up even after the column is hidden if (IsMouseReleased(1) && IsItemHovered()) TableOpenContextMenu(column_n); } // Unlike TableHeadersRow() it is not expected that you can reimplement or customize this with custom widgets. // FIXME: No hit-testing/button on the angled header. void ImGui::TableAngledHeadersRow() { ImGuiContext& g = *GImGui; ImGuiTable* table = g.CurrentTable; ImGuiTableTempData* temp_data = table->TempData; temp_data->AngledHeadersRequests.resize(0); temp_data->AngledHeadersRequests.reserve(table->ColumnsEnabledCount); // Which column needs highlight? const ImGuiID row_id = GetID("##AngledHeaders"); ImGuiTableInstanceData* table_instance = TableGetInstanceData(table, table->InstanceCurrent); int highlight_column_n = table->HighlightColumnHeader; if (highlight_column_n == -1 && table->HoveredColumnBody != -1) if (table_instance->HoveredRowLast == 0 && table->HoveredColumnBorder == -1 && (g.ActiveId == 0 || g.ActiveId == row_id || (table->IsActiveIdInTable || g.DragDropActive))) highlight_column_n = table->HoveredColumnBody; // Build up request ImU32 col_header_bg = GetColorU32(ImGuiCol_TableHeaderBg); ImU32 col_text = GetColorU32(ImGuiCol_Text); for (int order_n = 0; order_n < table->ColumnsCount; order_n++) if (IM_BITARRAY_TESTBIT(table->EnabledMaskByDisplayOrder, order_n)) { const int column_n = table->DisplayOrderToIndex[order_n]; ImGuiTableColumn* column = &table->Columns[column_n]; if ((column->Flags & ImGuiTableColumnFlags_AngledHeader) == 0) // Note: can't rely on ImGuiTableColumnFlags_IsVisible test here. continue; ImGuiTableHeaderData request = { (ImGuiTableColumnIdx)column_n, col_text, col_header_bg, (column_n == highlight_column_n) ? GetColorU32(ImGuiCol_Header) : 0 }; temp_data->AngledHeadersRequests.push_back(request); } // Render row TableAngledHeadersRowEx(row_id, g.Style.TableAngledHeadersAngle, 0.0f, temp_data->AngledHeadersRequests.Data, temp_data->AngledHeadersRequests.Size); } // Important: data must be fed left to right void ImGui::TableAngledHeadersRowEx(ImGuiID row_id, float angle, float max_label_width, const ImGuiTableHeaderData* data, int data_count) { ImGuiContext& g = *GImGui; ImGuiTable* table = g.CurrentTable; ImGuiWindow* window = g.CurrentWindow; ImDrawList* draw_list = window->DrawList; IM_ASSERT(table != NULL && "Need to call TableHeadersRow() after BeginTable()!"); IM_ASSERT(table->CurrentRow == -1 && "Must be first row"); if (max_label_width == 0.0f) max_label_width = TableGetHeaderAngledMaxLabelWidth(); // Angle argument expressed in (-IM_PI/2 .. +IM_PI/2) as it is easier to think about for user. const bool flip_label = (angle < 0.0f); angle -= IM_PI * 0.5f; const float cos_a = ImCos(angle); const float sin_a = ImSin(angle); const float label_cos_a = flip_label ? ImCos(angle + IM_PI) : cos_a; const float label_sin_a = flip_label ? ImSin(angle + IM_PI) : sin_a; const ImVec2 unit_right = ImVec2(cos_a, sin_a); // Calculate our base metrics and set angled headers data _before_ the first call to TableNextRow() // FIXME-STYLE: Would it be better for user to submit 'max_label_width' or 'row_height' ? One can be derived from the other. const float header_height = g.FontSize + g.Style.CellPadding.x * 2.0f; const float row_height = ImTrunc(ImFabs(ImRotate(ImVec2(max_label_width, flip_label ? +header_height : -header_height), cos_a, sin_a).y)); table->AngledHeadersHeight = row_height; table->AngledHeadersSlope = (sin_a != 0.0f) ? (cos_a / sin_a) : 0.0f; const ImVec2 header_angled_vector = unit_right * (row_height / -sin_a); // vector from bottom-left to top-left, and from bottom-right to top-right // Declare row, override and draw our own background TableNextRow(ImGuiTableRowFlags_Headers, row_height); TableNextColumn(); const ImRect row_r(table->WorkRect.Min.x, table->BgClipRect.Min.y, table->WorkRect.Max.x, table->RowPosY2); table->DrawSplitter->SetCurrentChannel(draw_list, TABLE_DRAW_CHANNEL_BG0); float clip_rect_min_x = table->BgClipRect.Min.x; if (table->FreezeColumnsCount > 0) clip_rect_min_x = ImMax(clip_rect_min_x, table->Columns[table->FreezeColumnsCount - 1].MaxX); TableSetBgColor(ImGuiTableBgTarget_RowBg0, 0); // Cancel PushClipRect(table->BgClipRect.Min, table->BgClipRect.Max, false); // Span all columns draw_list->AddRectFilled(ImVec2(table->BgClipRect.Min.x, row_r.Min.y), ImVec2(table->BgClipRect.Max.x, row_r.Max.y), GetColorU32(ImGuiCol_TableHeaderBg, 0.25f)); // FIXME-STYLE: Change row background with an arbitrary color. PushClipRect(ImVec2(clip_rect_min_x, table->BgClipRect.Min.y), table->BgClipRect.Max, true); // Span all columns ButtonBehavior(row_r, row_id, NULL, NULL); KeepAliveID(row_id); const float ascent_scaled = g.Font->Ascent * g.FontScale; // FIXME: Standardize those scaling factors better const float line_off_for_ascent_x = (ImMax((g.FontSize - ascent_scaled) * 0.5f, 0.0f) / -sin_a) * (flip_label ? -1.0f : 1.0f); const ImVec2 padding = g.Style.CellPadding; // We will always use swapped component const ImVec2 align = g.Style.TableAngledHeadersTextAlign; // Draw background and labels in first pass, then all borders. float max_x = 0.0f; for (int pass = 0; pass < 2; pass++) for (int order_n = 0; order_n < data_count; order_n++) { const ImGuiTableHeaderData* request = &data[order_n]; const int column_n = request->Index; ImGuiTableColumn* column = &table->Columns[column_n]; ImVec2 bg_shape[4]; bg_shape[0] = ImVec2(column->MaxX, row_r.Max.y); bg_shape[1] = ImVec2(column->MinX, row_r.Max.y); bg_shape[2] = bg_shape[1] + header_angled_vector; bg_shape[3] = bg_shape[0] + header_angled_vector; if (pass == 0) { // Draw shape draw_list->AddQuadFilled(bg_shape[0], bg_shape[1], bg_shape[2], bg_shape[3], request->BgColor0); draw_list->AddQuadFilled(bg_shape[0], bg_shape[1], bg_shape[2], bg_shape[3], request->BgColor1); // Optional highlight max_x = ImMax(max_x, bg_shape[3].x); // Draw label // - First draw at an offset where RenderTextXXX() function won't meddle with applying current ClipRect, then transform to final offset. // - Handle multiple lines manually, as we want each lines to follow on the horizontal border, rather than see a whole block rotated. const char* label_name = TableGetColumnName(table, column_n); const char* label_name_end = FindRenderedTextEnd(label_name); const float line_off_step_x = (g.FontSize / -sin_a); const int label_lines = ImTextCountLines(label_name, label_name_end); // Left<>Right alignment float line_off_curr_x = flip_label ? (label_lines - 1) * line_off_step_x : 0.0f; float line_off_for_align_x = ImMax((((column->MaxX - column->MinX) - padding.x * 2.0f) - (label_lines * line_off_step_x)), 0.0f) * align.x; line_off_curr_x += line_off_for_align_x - line_off_for_ascent_x; // Register header width column->ContentMaxXHeadersUsed = column->ContentMaxXHeadersIdeal = column->WorkMinX + ImCeil(label_lines * line_off_step_x - line_off_for_align_x); while (label_name < label_name_end) { const char* label_name_eol = strchr(label_name, '\n'); if (label_name_eol == NULL) label_name_eol = label_name_end; // FIXME: Individual line clipping for right-most column is broken for negative angles. ImVec2 label_size = CalcTextSize(label_name, label_name_eol); float clip_width = max_label_width - padding.y; // Using padding.y*2.0f would be symmetrical but hide more text. float clip_height = ImMin(label_size.y, column->ClipRect.Max.x - column->WorkMinX - line_off_curr_x); ImRect clip_r(window->ClipRect.Min, window->ClipRect.Min + ImVec2(clip_width, clip_height)); int vtx_idx_begin = draw_list->_VtxCurrentIdx; PushStyleColor(ImGuiCol_Text, request->TextColor); RenderTextEllipsis(draw_list, clip_r.Min, clip_r.Max, clip_r.Max.x, clip_r.Max.x, label_name, label_name_eol, &label_size); PopStyleColor(); int vtx_idx_end = draw_list->_VtxCurrentIdx; // Up<>Down alignment const float available_space = ImMax(clip_width - label_size.x + ImAbs(padding.x * cos_a) * 2.0f - ImAbs(padding.y * sin_a) * 2.0f, 0.0f); const float vertical_offset = available_space * align.y * (flip_label ? -1.0f : 1.0f); // Rotate and offset label ImVec2 pivot_in = ImVec2(window->ClipRect.Min.x - vertical_offset, window->ClipRect.Min.y + label_size.y); ImVec2 pivot_out = ImVec2(column->WorkMinX, row_r.Max.y); line_off_curr_x += flip_label ? -line_off_step_x : line_off_step_x; pivot_out += unit_right * padding.y; if (flip_label) pivot_out += unit_right * (clip_width - ImMax(0.0f, clip_width - label_size.x)); pivot_out.x += flip_label ? line_off_curr_x + line_off_step_x : line_off_curr_x; ShadeVertsTransformPos(draw_list, vtx_idx_begin, vtx_idx_end, pivot_in, label_cos_a, label_sin_a, pivot_out); // Rotate and offset //if (g.IO.KeyShift) { ImDrawList* fg_dl = GetForegroundDrawList(); vtx_idx_begin = fg_dl->_VtxCurrentIdx; fg_dl->AddRect(clip_r.Min, clip_r.Max, IM_COL32(0, 255, 0, 255), 0.0f, 0, 1.0f); ShadeVertsTransformPos(fg_dl, vtx_idx_begin, fg_dl->_VtxCurrentIdx, pivot_in, label_cos_a, label_sin_a, pivot_out); } label_name = label_name_eol + 1; } } if (pass == 1) { // Draw border draw_list->AddLine(bg_shape[0], bg_shape[3], TableGetColumnBorderCol(table, order_n, column_n)); } } PopClipRect(); PopClipRect(); table->TempData->AngledHeadersExtraWidth = ImMax(0.0f, max_x - table->Columns[table->RightMostEnabledColumn].MaxX); } //------------------------------------------------------------------------- // [SECTION] Tables: Context Menu //------------------------------------------------------------------------- // - TableOpenContextMenu() [Internal] // - TableBeginContextMenuPopup() [Internal] // - TableDrawDefaultContextMenu() [Internal] //------------------------------------------------------------------------- // Use -1 to open menu not specific to a given column. void ImGui::TableOpenContextMenu(int column_n) { ImGuiContext& g = *GImGui; ImGuiTable* table = g.CurrentTable; if (column_n == -1 && table->CurrentColumn != -1) // When called within a column automatically use this one (for consistency) column_n = table->CurrentColumn; if (column_n == table->ColumnsCount) // To facilitate using with TableGetHoveredColumn() column_n = -1; IM_ASSERT(column_n >= -1 && column_n < table->ColumnsCount); if (table->Flags & (ImGuiTableFlags_Resizable | ImGuiTableFlags_Reorderable | ImGuiTableFlags_Hideable)) { table->IsContextPopupOpen = true; table->ContextPopupColumn = (ImGuiTableColumnIdx)column_n; table->InstanceInteracted = table->InstanceCurrent; const ImGuiID context_menu_id = ImHashStr("##ContextMenu", 0, table->ID); OpenPopupEx(context_menu_id, ImGuiPopupFlags_None); } } bool ImGui::TableBeginContextMenuPopup(ImGuiTable* table) { if (!table->IsContextPopupOpen || table->InstanceCurrent != table->InstanceInteracted) return false; const ImGuiID context_menu_id = ImHashStr("##ContextMenu", 0, table->ID); if (BeginPopupEx(context_menu_id, ImGuiWindowFlags_AlwaysAutoResize | ImGuiWindowFlags_NoTitleBar | ImGuiWindowFlags_NoSavedSettings)) return true; table->IsContextPopupOpen = false; return false; } // Output context menu into current window (generally a popup) // FIXME-TABLE: Ideally this should be writable by the user. Full programmatic access to that data? // Sections to display are pulled from 'flags_for_section_to_display', which is typically == table->Flags. // - ImGuiTableFlags_Resizable -> display Sizing menu items // - ImGuiTableFlags_Reorderable -> display "Reset Order" ////- ImGuiTableFlags_Sortable -> display sorting options (disabled) // - ImGuiTableFlags_Hideable -> display columns visibility menu items // It means if you have a custom context menus you can call this section and omit some sections, and add your own. void ImGui::TableDrawDefaultContextMenu(ImGuiTable* table, ImGuiTableFlags flags_for_section_to_display) { ImGuiContext& g = *GImGui; ImGuiWindow* window = g.CurrentWindow; if (window->SkipItems) return; bool want_separator = false; const int column_n = (table->ContextPopupColumn >= 0 && table->ContextPopupColumn < table->ColumnsCount) ? table->ContextPopupColumn : -1; ImGuiTableColumn* column = (column_n != -1) ? &table->Columns[column_n] : NULL; // Sizing if (flags_for_section_to_display & ImGuiTableFlags_Resizable) { if (column != NULL) { const bool can_resize = !(column->Flags & ImGuiTableColumnFlags_NoResize) && column->IsEnabled; if (MenuItem(LocalizeGetMsg(ImGuiLocKey_TableSizeOne), NULL, false, can_resize)) // "###SizeOne" TableSetColumnWidthAutoSingle(table, column_n); } const char* size_all_desc; if (table->ColumnsEnabledFixedCount == table->ColumnsEnabledCount && (table->Flags & ImGuiTableFlags_SizingMask_) != ImGuiTableFlags_SizingFixedSame) size_all_desc = LocalizeGetMsg(ImGuiLocKey_TableSizeAllFit); // "###SizeAll" All fixed else size_all_desc = LocalizeGetMsg(ImGuiLocKey_TableSizeAllDefault); // "###SizeAll" All stretch or mixed if (MenuItem(size_all_desc, NULL)) TableSetColumnWidthAutoAll(table); want_separator = true; } // Ordering if (flags_for_section_to_display & ImGuiTableFlags_Reorderable) { if (MenuItem(LocalizeGetMsg(ImGuiLocKey_TableResetOrder), NULL, false, !table->IsDefaultDisplayOrder)) table->IsResetDisplayOrderRequest = true; want_separator = true; } // Reset all (should work but seems unnecessary/noisy to expose?) //if (MenuItem("Reset all")) // table->IsResetAllRequest = true; // Sorting // (modify TableOpenContextMenu() to add _Sortable flag if enabling this) #if 0 if ((flags_for_section_to_display & ImGuiTableFlags_Sortable) && column != NULL && (column->Flags & ImGuiTableColumnFlags_NoSort) == 0) { if (want_separator) Separator(); want_separator = true; bool append_to_sort_specs = g.IO.KeyShift; if (MenuItem("Sort in Ascending Order", NULL, column->SortOrder != -1 && column->SortDirection == ImGuiSortDirection_Ascending, (column->Flags & ImGuiTableColumnFlags_NoSortAscending) == 0)) TableSetColumnSortDirection(table, column_n, ImGuiSortDirection_Ascending, append_to_sort_specs); if (MenuItem("Sort in Descending Order", NULL, column->SortOrder != -1 && column->SortDirection == ImGuiSortDirection_Descending, (column->Flags & ImGuiTableColumnFlags_NoSortDescending) == 0)) TableSetColumnSortDirection(table, column_n, ImGuiSortDirection_Descending, append_to_sort_specs); } #endif // Hiding / Visibility if (flags_for_section_to_display & ImGuiTableFlags_Hideable) { if (want_separator) Separator(); want_separator = true; PushItemFlag(ImGuiItemFlags_AutoClosePopups, false); for (int other_column_n = 0; other_column_n < table->ColumnsCount; other_column_n++) { ImGuiTableColumn* other_column = &table->Columns[other_column_n]; if (other_column->Flags & ImGuiTableColumnFlags_Disabled) continue; const char* name = TableGetColumnName(table, other_column_n); if (name == NULL || name[0] == 0) name = ""; // Make sure we can't hide the last active column bool menu_item_active = (other_column->Flags & ImGuiTableColumnFlags_NoHide) ? false : true; if (other_column->IsUserEnabled && table->ColumnsEnabledCount <= 1) menu_item_active = false; if (MenuItem(name, NULL, other_column->IsUserEnabled, menu_item_active)) other_column->IsUserEnabledNextFrame = !other_column->IsUserEnabled; } PopItemFlag(); } } //------------------------------------------------------------------------- // [SECTION] Tables: Settings (.ini data) //------------------------------------------------------------------------- // FIXME: The binding/finding/creating flow are too confusing. //------------------------------------------------------------------------- // - TableSettingsInit() [Internal] // - TableSettingsCalcChunkSize() [Internal] // - TableSettingsCreate() [Internal] // - TableSettingsFindByID() [Internal] // - TableGetBoundSettings() [Internal] // - TableResetSettings() // - TableSaveSettings() [Internal] // - TableLoadSettings() [Internal] // - TableSettingsHandler_ClearAll() [Internal] // - TableSettingsHandler_ApplyAll() [Internal] // - TableSettingsHandler_ReadOpen() [Internal] // - TableSettingsHandler_ReadLine() [Internal] // - TableSettingsHandler_WriteAll() [Internal] // - TableSettingsInstallHandler() [Internal] //------------------------------------------------------------------------- // [Init] 1: TableSettingsHandler_ReadXXXX() Load and parse .ini file into TableSettings. // [Main] 2: TableLoadSettings() When table is created, bind Table to TableSettings, serialize TableSettings data into Table. // [Main] 3: TableSaveSettings() When table properties are modified, serialize Table data into bound or new TableSettings, mark .ini as dirty. // [Main] 4: TableSettingsHandler_WriteAll() When .ini file is dirty (which can come from other source), save TableSettings into .ini file. //------------------------------------------------------------------------- // Clear and initialize empty settings instance static void TableSettingsInit(ImGuiTableSettings* settings, ImGuiID id, int columns_count, int columns_count_max) { IM_PLACEMENT_NEW(settings) ImGuiTableSettings(); ImGuiTableColumnSettings* settings_column = settings->GetColumnSettings(); for (int n = 0; n < columns_count_max; n++, settings_column++) IM_PLACEMENT_NEW(settings_column) ImGuiTableColumnSettings(); settings->ID = id; settings->ColumnsCount = (ImGuiTableColumnIdx)columns_count; settings->ColumnsCountMax = (ImGuiTableColumnIdx)columns_count_max; settings->WantApply = true; } static size_t TableSettingsCalcChunkSize(int columns_count) { return sizeof(ImGuiTableSettings) + (size_t)columns_count * sizeof(ImGuiTableColumnSettings); } ImGuiTableSettings* ImGui::TableSettingsCreate(ImGuiID id, int columns_count) { ImGuiContext& g = *GImGui; ImGuiTableSettings* settings = g.SettingsTables.alloc_chunk(TableSettingsCalcChunkSize(columns_count)); TableSettingsInit(settings, id, columns_count, columns_count); return settings; } // Find existing settings ImGuiTableSettings* ImGui::TableSettingsFindByID(ImGuiID id) { // FIXME-OPT: Might want to store a lookup map for this? ImGuiContext& g = *GImGui; for (ImGuiTableSettings* settings = g.SettingsTables.begin(); settings != NULL; settings = g.SettingsTables.next_chunk(settings)) if (settings->ID == id) return settings; return NULL; } // Get settings for a given table, NULL if none ImGuiTableSettings* ImGui::TableGetBoundSettings(ImGuiTable* table) { if (table->SettingsOffset != -1) { ImGuiContext& g = *GImGui; ImGuiTableSettings* settings = g.SettingsTables.ptr_from_offset(table->SettingsOffset); IM_ASSERT(settings->ID == table->ID); if (settings->ColumnsCountMax >= table->ColumnsCount) return settings; // OK settings->ID = 0; // Invalidate storage, we won't fit because of a count change } return NULL; } // Restore initial state of table (with or without saved settings) void ImGui::TableResetSettings(ImGuiTable* table) { table->IsInitializing = table->IsSettingsDirty = true; table->IsResetAllRequest = false; table->IsSettingsRequestLoad = false; // Don't reload from ini table->SettingsLoadedFlags = ImGuiTableFlags_None; // Mark as nothing loaded so our initialized data becomes authoritative } void ImGui::TableSaveSettings(ImGuiTable* table) { table->IsSettingsDirty = false; if (table->Flags & ImGuiTableFlags_NoSavedSettings) return; // Bind or create settings data ImGuiContext& g = *GImGui; ImGuiTableSettings* settings = TableGetBoundSettings(table); if (settings == NULL) { settings = TableSettingsCreate(table->ID, table->ColumnsCount); table->SettingsOffset = g.SettingsTables.offset_from_ptr(settings); } settings->ColumnsCount = (ImGuiTableColumnIdx)table->ColumnsCount; // Serialize ImGuiTable/ImGuiTableColumn into ImGuiTableSettings/ImGuiTableColumnSettings IM_ASSERT(settings->ID == table->ID); IM_ASSERT(settings->ColumnsCount == table->ColumnsCount && settings->ColumnsCountMax >= settings->ColumnsCount); ImGuiTableColumn* column = table->Columns.Data; ImGuiTableColumnSettings* column_settings = settings->GetColumnSettings(); bool save_ref_scale = false; settings->SaveFlags = ImGuiTableFlags_None; for (int n = 0; n < table->ColumnsCount; n++, column++, column_settings++) { const float width_or_weight = (column->Flags & ImGuiTableColumnFlags_WidthStretch) ? column->StretchWeight : column->WidthRequest; column_settings->WidthOrWeight = width_or_weight; column_settings->Index = (ImGuiTableColumnIdx)n; column_settings->DisplayOrder = column->DisplayOrder; column_settings->SortOrder = column->SortOrder; column_settings->SortDirection = column->SortDirection; column_settings->IsEnabled = column->IsUserEnabled; column_settings->IsStretch = (column->Flags & ImGuiTableColumnFlags_WidthStretch) ? 1 : 0; if ((column->Flags & ImGuiTableColumnFlags_WidthStretch) == 0) save_ref_scale = true; // We skip saving some data in the .ini file when they are unnecessary to restore our state. // Note that fixed width where initial width was derived from auto-fit will always be saved as InitStretchWeightOrWidth will be 0.0f. // FIXME-TABLE: We don't have logic to easily compare SortOrder to DefaultSortOrder yet so it's always saved when present. if (width_or_weight != column->InitStretchWeightOrWidth) settings->SaveFlags |= ImGuiTableFlags_Resizable; if (column->DisplayOrder != n) settings->SaveFlags |= ImGuiTableFlags_Reorderable; if (column->SortOrder != -1) settings->SaveFlags |= ImGuiTableFlags_Sortable; if (column->IsUserEnabled != ((column->Flags & ImGuiTableColumnFlags_DefaultHide) == 0)) settings->SaveFlags |= ImGuiTableFlags_Hideable; } settings->SaveFlags &= table->Flags; settings->RefScale = save_ref_scale ? table->RefScale : 0.0f; MarkIniSettingsDirty(); } void ImGui::TableLoadSettings(ImGuiTable* table) { ImGuiContext& g = *GImGui; table->IsSettingsRequestLoad = false; if (table->Flags & ImGuiTableFlags_NoSavedSettings) return; // Bind settings ImGuiTableSettings* settings; if (table->SettingsOffset == -1) { settings = TableSettingsFindByID(table->ID); if (settings == NULL) return; if (settings->ColumnsCount != table->ColumnsCount) // Allow settings if columns count changed. We could otherwise decide to return... table->IsSettingsDirty = true; table->SettingsOffset = g.SettingsTables.offset_from_ptr(settings); } else { settings = TableGetBoundSettings(table); } table->SettingsLoadedFlags = settings->SaveFlags; table->RefScale = settings->RefScale; // Serialize ImGuiTableSettings/ImGuiTableColumnSettings into ImGuiTable/ImGuiTableColumn ImGuiTableColumnSettings* column_settings = settings->GetColumnSettings(); ImU64 display_order_mask = 0; for (int data_n = 0; data_n < settings->ColumnsCount; data_n++, column_settings++) { int column_n = column_settings->Index; if (column_n < 0 || column_n >= table->ColumnsCount) continue; ImGuiTableColumn* column = &table->Columns[column_n]; if (settings->SaveFlags & ImGuiTableFlags_Resizable) { if (column_settings->IsStretch) column->StretchWeight = column_settings->WidthOrWeight; else column->WidthRequest = column_settings->WidthOrWeight; column->AutoFitQueue = 0x00; } if (settings->SaveFlags & ImGuiTableFlags_Reorderable) column->DisplayOrder = column_settings->DisplayOrder; else column->DisplayOrder = (ImGuiTableColumnIdx)column_n; display_order_mask |= (ImU64)1 << column->DisplayOrder; column->IsUserEnabled = column->IsUserEnabledNextFrame = column_settings->IsEnabled; column->SortOrder = column_settings->SortOrder; column->SortDirection = column_settings->SortDirection; } // Validate and fix invalid display order data const ImU64 expected_display_order_mask = (settings->ColumnsCount == 64) ? ~0 : ((ImU64)1 << settings->ColumnsCount) - 1; if (display_order_mask != expected_display_order_mask) for (int column_n = 0; column_n < table->ColumnsCount; column_n++) table->Columns[column_n].DisplayOrder = (ImGuiTableColumnIdx)column_n; // Rebuild index for (int column_n = 0; column_n < table->ColumnsCount; column_n++) table->DisplayOrderToIndex[table->Columns[column_n].DisplayOrder] = (ImGuiTableColumnIdx)column_n; } static void TableSettingsHandler_ClearAll(ImGuiContext* ctx, ImGuiSettingsHandler*) { ImGuiContext& g = *ctx; for (int i = 0; i != g.Tables.GetMapSize(); i++) if (ImGuiTable* table = g.Tables.TryGetMapData(i)) table->SettingsOffset = -1; g.SettingsTables.clear(); } // Apply to existing windows (if any) static void TableSettingsHandler_ApplyAll(ImGuiContext* ctx, ImGuiSettingsHandler*) { ImGuiContext& g = *ctx; for (int i = 0; i != g.Tables.GetMapSize(); i++) if (ImGuiTable* table = g.Tables.TryGetMapData(i)) { table->IsSettingsRequestLoad = true; table->SettingsOffset = -1; } } static void* TableSettingsHandler_ReadOpen(ImGuiContext*, ImGuiSettingsHandler*, const char* name) { ImGuiID id = 0; int columns_count = 0; if (sscanf(name, "0x%08X,%d", &id, &columns_count) < 2) return NULL; if (ImGuiTableSettings* settings = ImGui::TableSettingsFindByID(id)) { if (settings->ColumnsCountMax >= columns_count) { TableSettingsInit(settings, id, columns_count, settings->ColumnsCountMax); // Recycle return settings; } settings->ID = 0; // Invalidate storage, we won't fit because of a count change } return ImGui::TableSettingsCreate(id, columns_count); } static void TableSettingsHandler_ReadLine(ImGuiContext*, ImGuiSettingsHandler*, void* entry, const char* line) { // "Column 0 UserID=0x42AD2D21 Width=100 Visible=1 Order=0 Sort=0v" ImGuiTableSettings* settings = (ImGuiTableSettings*)entry; float f = 0.0f; int column_n = 0, r = 0, n = 0; if (sscanf(line, "RefScale=%f", &f) == 1) { settings->RefScale = f; return; } if (sscanf(line, "Column %d%n", &column_n, &r) == 1) { if (column_n < 0 || column_n >= settings->ColumnsCount) return; line = ImStrSkipBlank(line + r); char c = 0; ImGuiTableColumnSettings* column = settings->GetColumnSettings() + column_n; column->Index = (ImGuiTableColumnIdx)column_n; if (sscanf(line, "UserID=0x%08X%n", (ImU32*)&n, &r)==1) { line = ImStrSkipBlank(line + r); column->UserID = (ImGuiID)n; } if (sscanf(line, "Width=%d%n", &n, &r) == 1) { line = ImStrSkipBlank(line + r); column->WidthOrWeight = (float)n; column->IsStretch = 0; settings->SaveFlags |= ImGuiTableFlags_Resizable; } if (sscanf(line, "Weight=%f%n", &f, &r) == 1) { line = ImStrSkipBlank(line + r); column->WidthOrWeight = f; column->IsStretch = 1; settings->SaveFlags |= ImGuiTableFlags_Resizable; } if (sscanf(line, "Visible=%d%n", &n, &r) == 1) { line = ImStrSkipBlank(line + r); column->IsEnabled = (ImU8)n; settings->SaveFlags |= ImGuiTableFlags_Hideable; } if (sscanf(line, "Order=%d%n", &n, &r) == 1) { line = ImStrSkipBlank(line + r); column->DisplayOrder = (ImGuiTableColumnIdx)n; settings->SaveFlags |= ImGuiTableFlags_Reorderable; } if (sscanf(line, "Sort=%d%c%n", &n, &c, &r) == 2) { line = ImStrSkipBlank(line + r); column->SortOrder = (ImGuiTableColumnIdx)n; column->SortDirection = (c == '^') ? ImGuiSortDirection_Descending : ImGuiSortDirection_Ascending; settings->SaveFlags |= ImGuiTableFlags_Sortable; } } } static void TableSettingsHandler_WriteAll(ImGuiContext* ctx, ImGuiSettingsHandler* handler, ImGuiTextBuffer* buf) { ImGuiContext& g = *ctx; for (ImGuiTableSettings* settings = g.SettingsTables.begin(); settings != NULL; settings = g.SettingsTables.next_chunk(settings)) { if (settings->ID == 0) // Skip ditched settings continue; // TableSaveSettings() may clear some of those flags when we establish that the data can be stripped // (e.g. Order was unchanged) const bool save_size = (settings->SaveFlags & ImGuiTableFlags_Resizable) != 0; const bool save_visible = (settings->SaveFlags & ImGuiTableFlags_Hideable) != 0; const bool save_order = (settings->SaveFlags & ImGuiTableFlags_Reorderable) != 0; const bool save_sort = (settings->SaveFlags & ImGuiTableFlags_Sortable) != 0; if (!save_size && !save_visible && !save_order && !save_sort) continue; buf->reserve(buf->size() + 30 + settings->ColumnsCount * 50); // ballpark reserve buf->appendf("[%s][0x%08X,%d]\n", handler->TypeName, settings->ID, settings->ColumnsCount); if (settings->RefScale != 0.0f) buf->appendf("RefScale=%g\n", settings->RefScale); ImGuiTableColumnSettings* column = settings->GetColumnSettings(); for (int column_n = 0; column_n < settings->ColumnsCount; column_n++, column++) { // "Column 0 UserID=0x42AD2D21 Width=100 Visible=1 Order=0 Sort=0v" bool save_column = column->UserID != 0 || save_size || save_visible || save_order || (save_sort && column->SortOrder != -1); if (!save_column) continue; buf->appendf("Column %-2d", column_n); if (column->UserID != 0) { buf->appendf(" UserID=%08X", column->UserID); } if (save_size && column->IsStretch) { buf->appendf(" Weight=%.4f", column->WidthOrWeight); } if (save_size && !column->IsStretch) { buf->appendf(" Width=%d", (int)column->WidthOrWeight); } if (save_visible) { buf->appendf(" Visible=%d", column->IsEnabled); } if (save_order) { buf->appendf(" Order=%d", column->DisplayOrder); } if (save_sort && column->SortOrder != -1) { buf->appendf(" Sort=%d%c", column->SortOrder, (column->SortDirection == ImGuiSortDirection_Ascending) ? 'v' : '^'); } buf->append("\n"); } buf->append("\n"); } } void ImGui::TableSettingsAddSettingsHandler() { ImGuiSettingsHandler ini_handler; ini_handler.TypeName = "Table"; ini_handler.TypeHash = ImHashStr("Table"); ini_handler.ClearAllFn = TableSettingsHandler_ClearAll; ini_handler.ReadOpenFn = TableSettingsHandler_ReadOpen; ini_handler.ReadLineFn = TableSettingsHandler_ReadLine; ini_handler.ApplyAllFn = TableSettingsHandler_ApplyAll; ini_handler.WriteAllFn = TableSettingsHandler_WriteAll; AddSettingsHandler(&ini_handler); } //------------------------------------------------------------------------- // [SECTION] Tables: Garbage Collection //------------------------------------------------------------------------- // - TableRemove() [Internal] // - TableGcCompactTransientBuffers() [Internal] // - TableGcCompactSettings() [Internal] //------------------------------------------------------------------------- // Remove Table (currently only used by TestEngine) void ImGui::TableRemove(ImGuiTable* table) { //IMGUI_DEBUG_PRINT("TableRemove() id=0x%08X\n", table->ID); ImGuiContext& g = *GImGui; int table_idx = g.Tables.GetIndex(table); //memset(table->RawData.Data, 0, table->RawData.size_in_bytes()); //memset(table, 0, sizeof(ImGuiTable)); g.Tables.Remove(table->ID, table); g.TablesLastTimeActive[table_idx] = -1.0f; } // Free up/compact internal Table buffers for when it gets unused void ImGui::TableGcCompactTransientBuffers(ImGuiTable* table) { //IMGUI_DEBUG_PRINT("TableGcCompactTransientBuffers() id=0x%08X\n", table->ID); ImGuiContext& g = *GImGui; IM_ASSERT(table->MemoryCompacted == false); table->SortSpecs.Specs = NULL; table->SortSpecsMulti.clear(); table->IsSortSpecsDirty = true; // FIXME: In theory shouldn't have to leak into user performing a sort on resume. table->ColumnsNames.clear(); table->MemoryCompacted = true; for (int n = 0; n < table->ColumnsCount; n++) table->Columns[n].NameOffset = -1; g.TablesLastTimeActive[g.Tables.GetIndex(table)] = -1.0f; } void ImGui::TableGcCompactTransientBuffers(ImGuiTableTempData* temp_data) { temp_data->DrawSplitter.ClearFreeMemory(); temp_data->LastTimeActive = -1.0f; } // Compact and remove unused settings data (currently only used by TestEngine) void ImGui::TableGcCompactSettings() { ImGuiContext& g = *GImGui; int required_memory = 0; for (ImGuiTableSettings* settings = g.SettingsTables.begin(); settings != NULL; settings = g.SettingsTables.next_chunk(settings)) if (settings->ID != 0) required_memory += (int)TableSettingsCalcChunkSize(settings->ColumnsCount); if (required_memory == g.SettingsTables.Buf.Size) return; ImChunkStream new_chunk_stream; new_chunk_stream.Buf.reserve(required_memory); for (ImGuiTableSettings* settings = g.SettingsTables.begin(); settings != NULL; settings = g.SettingsTables.next_chunk(settings)) if (settings->ID != 0) memcpy(new_chunk_stream.alloc_chunk(TableSettingsCalcChunkSize(settings->ColumnsCount)), settings, TableSettingsCalcChunkSize(settings->ColumnsCount)); g.SettingsTables.swap(new_chunk_stream); } //------------------------------------------------------------------------- // [SECTION] Tables: Debugging //------------------------------------------------------------------------- // - DebugNodeTable() [Internal] //------------------------------------------------------------------------- #ifndef IMGUI_DISABLE_DEBUG_TOOLS static const char* DebugNodeTableGetSizingPolicyDesc(ImGuiTableFlags sizing_policy) { sizing_policy &= ImGuiTableFlags_SizingMask_; if (sizing_policy == ImGuiTableFlags_SizingFixedFit) { return "FixedFit"; } if (sizing_policy == ImGuiTableFlags_SizingFixedSame) { return "FixedSame"; } if (sizing_policy == ImGuiTableFlags_SizingStretchProp) { return "StretchProp"; } if (sizing_policy == ImGuiTableFlags_SizingStretchSame) { return "StretchSame"; } return "N/A"; } void ImGui::DebugNodeTable(ImGuiTable* table) { ImGuiContext& g = *GImGui; const bool is_active = (table->LastFrameActive >= g.FrameCount - 2); // Note that fully clipped early out scrolling tables will appear as inactive here. if (!is_active) { PushStyleColor(ImGuiCol_Text, GetStyleColorVec4(ImGuiCol_TextDisabled)); } bool open = TreeNode(table, "Table 0x%08X (%d columns, in '%s')%s", table->ID, table->ColumnsCount, table->OuterWindow->Name, is_active ? "" : " *Inactive*"); if (!is_active) { PopStyleColor(); } if (IsItemHovered()) GetForegroundDrawList()->AddRect(table->OuterRect.Min, table->OuterRect.Max, IM_COL32(255, 255, 0, 255)); if (IsItemVisible() && table->HoveredColumnBody != -1) GetForegroundDrawList()->AddRect(GetItemRectMin(), GetItemRectMax(), IM_COL32(255, 255, 0, 255)); if (!open) return; if (table->InstanceCurrent > 0) Text("** %d instances of same table! Some data below will refer to last instance.", table->InstanceCurrent + 1); if (g.IO.ConfigDebugIsDebuggerPresent) { if (DebugBreakButton("**DebugBreak**", "in BeginTable()")) g.DebugBreakInTable = table->ID; SameLine(); } bool clear_settings = SmallButton("Clear settings"); BulletText("OuterRect: Pos: (%.1f,%.1f) Size: (%.1f,%.1f) Sizing: '%s'", table->OuterRect.Min.x, table->OuterRect.Min.y, table->OuterRect.GetWidth(), table->OuterRect.GetHeight(), DebugNodeTableGetSizingPolicyDesc(table->Flags)); BulletText("ColumnsGivenWidth: %.1f, ColumnsAutoFitWidth: %.1f, InnerWidth: %.1f%s", table->ColumnsGivenWidth, table->ColumnsAutoFitWidth, table->InnerWidth, table->InnerWidth == 0.0f ? " (auto)" : ""); BulletText("CellPaddingX: %.1f, CellSpacingX: %.1f/%.1f, OuterPaddingX: %.1f", table->CellPaddingX, table->CellSpacingX1, table->CellSpacingX2, table->OuterPaddingX); BulletText("HoveredColumnBody: %d, HoveredColumnBorder: %d", table->HoveredColumnBody, table->HoveredColumnBorder); BulletText("ResizedColumn: %d, ReorderColumn: %d, HeldHeaderColumn: %d", table->ResizedColumn, table->ReorderColumn, table->HeldHeaderColumn); for (int n = 0; n < table->InstanceCurrent + 1; n++) { ImGuiTableInstanceData* table_instance = TableGetInstanceData(table, n); BulletText("Instance %d: HoveredRow: %d, LastOuterHeight: %.2f", n, table_instance->HoveredRowLast, table_instance->LastOuterHeight); } //BulletText("BgDrawChannels: %d/%d", 0, table->BgDrawChannelUnfrozen); float sum_weights = 0.0f; for (int n = 0; n < table->ColumnsCount; n++) if (table->Columns[n].Flags & ImGuiTableColumnFlags_WidthStretch) sum_weights += table->Columns[n].StretchWeight; for (int n = 0; n < table->ColumnsCount; n++) { ImGuiTableColumn* column = &table->Columns[n]; const char* name = TableGetColumnName(table, n); char buf[512]; ImFormatString(buf, IM_ARRAYSIZE(buf), "Column %d order %d '%s': offset %+.2f to %+.2f%s\n" "Enabled: %d, VisibleX/Y: %d/%d, RequestOutput: %d, SkipItems: %d, DrawChannels: %d,%d\n" "WidthGiven: %.1f, Request/Auto: %.1f/%.1f, StretchWeight: %.3f (%.1f%%)\n" "MinX: %.1f, MaxX: %.1f (%+.1f), ClipRect: %.1f to %.1f (+%.1f)\n" "ContentWidth: %.1f,%.1f, HeadersUsed/Ideal %.1f/%.1f\n" "Sort: %d%s, UserID: 0x%08X, Flags: 0x%04X: %s%s%s..", n, column->DisplayOrder, name, column->MinX - table->WorkRect.Min.x, column->MaxX - table->WorkRect.Min.x, (n < table->FreezeColumnsRequest) ? " (Frozen)" : "", column->IsEnabled, column->IsVisibleX, column->IsVisibleY, column->IsRequestOutput, column->IsSkipItems, column->DrawChannelFrozen, column->DrawChannelUnfrozen, column->WidthGiven, column->WidthRequest, column->WidthAuto, column->StretchWeight, column->StretchWeight > 0.0f ? (column->StretchWeight / sum_weights) * 100.0f : 0.0f, column->MinX, column->MaxX, column->MaxX - column->MinX, column->ClipRect.Min.x, column->ClipRect.Max.x, column->ClipRect.Max.x - column->ClipRect.Min.x, column->ContentMaxXFrozen - column->WorkMinX, column->ContentMaxXUnfrozen - column->WorkMinX, column->ContentMaxXHeadersUsed - column->WorkMinX, column->ContentMaxXHeadersIdeal - column->WorkMinX, column->SortOrder, (column->SortDirection == ImGuiSortDirection_Ascending) ? " (Asc)" : (column->SortDirection == ImGuiSortDirection_Descending) ? " (Des)" : "", column->UserID, column->Flags, (column->Flags & ImGuiTableColumnFlags_WidthStretch) ? "WidthStretch " : "", (column->Flags & ImGuiTableColumnFlags_WidthFixed) ? "WidthFixed " : "", (column->Flags & ImGuiTableColumnFlags_NoResize) ? "NoResize " : ""); Bullet(); Selectable(buf); if (IsItemHovered()) { ImRect r(column->MinX, table->OuterRect.Min.y, column->MaxX, table->OuterRect.Max.y); GetForegroundDrawList()->AddRect(r.Min, r.Max, IM_COL32(255, 255, 0, 255)); } } if (ImGuiTableSettings* settings = TableGetBoundSettings(table)) DebugNodeTableSettings(settings); if (clear_settings) table->IsResetAllRequest = true; TreePop(); } void ImGui::DebugNodeTableSettings(ImGuiTableSettings* settings) { if (!TreeNode((void*)(intptr_t)settings->ID, "Settings 0x%08X (%d columns)", settings->ID, settings->ColumnsCount)) return; BulletText("SaveFlags: 0x%08X", settings->SaveFlags); BulletText("ColumnsCount: %d (max %d)", settings->ColumnsCount, settings->ColumnsCountMax); for (int n = 0; n < settings->ColumnsCount; n++) { ImGuiTableColumnSettings* column_settings = &settings->GetColumnSettings()[n]; ImGuiSortDirection sort_dir = (column_settings->SortOrder != -1) ? (ImGuiSortDirection)column_settings->SortDirection : ImGuiSortDirection_None; BulletText("Column %d Order %d SortOrder %d %s Vis %d %s %7.3f UserID 0x%08X", n, column_settings->DisplayOrder, column_settings->SortOrder, (sort_dir == ImGuiSortDirection_Ascending) ? "Asc" : (sort_dir == ImGuiSortDirection_Descending) ? "Des" : "---", column_settings->IsEnabled, column_settings->IsStretch ? "Weight" : "Width ", column_settings->WidthOrWeight, column_settings->UserID); } TreePop(); } #else // #ifndef IMGUI_DISABLE_DEBUG_TOOLS void ImGui::DebugNodeTable(ImGuiTable*) {} void ImGui::DebugNodeTableSettings(ImGuiTableSettings*) {} #endif //------------------------------------------------------------------------- // [SECTION] Columns, BeginColumns, EndColumns, etc. // (This is a legacy API, prefer using BeginTable/EndTable!) //------------------------------------------------------------------------- // FIXME: sizing is lossy when columns width is very small (default width may turn negative etc.) //------------------------------------------------------------------------- // - SetWindowClipRectBeforeSetChannel() [Internal] // - GetColumnIndex() // - GetColumnsCount() // - GetColumnOffset() // - GetColumnWidth() // - SetColumnOffset() // - SetColumnWidth() // - PushColumnClipRect() [Internal] // - PushColumnsBackground() [Internal] // - PopColumnsBackground() [Internal] // - FindOrCreateColumns() [Internal] // - GetColumnsID() [Internal] // - BeginColumns() // - NextColumn() // - EndColumns() // - Columns() //------------------------------------------------------------------------- // [Internal] Small optimization to avoid calls to PopClipRect/SetCurrentChannel/PushClipRect in sequences, // they would meddle many times with the underlying ImDrawCmd. // Instead, we do a preemptive overwrite of clipping rectangle _without_ altering the command-buffer and let // the subsequent single call to SetCurrentChannel() does it things once. void ImGui::SetWindowClipRectBeforeSetChannel(ImGuiWindow* window, const ImRect& clip_rect) { ImVec4 clip_rect_vec4 = clip_rect.ToVec4(); window->ClipRect = clip_rect; window->DrawList->_CmdHeader.ClipRect = clip_rect_vec4; window->DrawList->_ClipRectStack.Data[window->DrawList->_ClipRectStack.Size - 1] = clip_rect_vec4; } int ImGui::GetColumnIndex() { ImGuiWindow* window = GetCurrentWindowRead(); return window->DC.CurrentColumns ? window->DC.CurrentColumns->Current : 0; } int ImGui::GetColumnsCount() { ImGuiWindow* window = GetCurrentWindowRead(); return window->DC.CurrentColumns ? window->DC.CurrentColumns->Count : 1; } float ImGui::GetColumnOffsetFromNorm(const ImGuiOldColumns* columns, float offset_norm) { return offset_norm * (columns->OffMaxX - columns->OffMinX); } float ImGui::GetColumnNormFromOffset(const ImGuiOldColumns* columns, float offset) { return offset / (columns->OffMaxX - columns->OffMinX); } static const float COLUMNS_HIT_RECT_HALF_THICKNESS = 4.0f; static float GetDraggedColumnOffset(ImGuiOldColumns* columns, int column_index) { // Active (dragged) column always follow mouse. The reason we need this is that dragging a column to the right edge of an auto-resizing // window creates a feedback loop because we store normalized positions. So while dragging we enforce absolute positioning. ImGuiContext& g = *GImGui; ImGuiWindow* window = g.CurrentWindow; IM_ASSERT(column_index > 0); // We are not supposed to drag column 0. IM_ASSERT(g.ActiveId == columns->ID + ImGuiID(column_index)); float x = g.IO.MousePos.x - g.ActiveIdClickOffset.x + ImTrunc(COLUMNS_HIT_RECT_HALF_THICKNESS * g.CurrentDpiScale) - window->Pos.x; x = ImMax(x, ImGui::GetColumnOffset(column_index - 1) + g.Style.ColumnsMinSpacing); if ((columns->Flags & ImGuiOldColumnFlags_NoPreserveWidths)) x = ImMin(x, ImGui::GetColumnOffset(column_index + 1) - g.Style.ColumnsMinSpacing); return x; } float ImGui::GetColumnOffset(int column_index) { ImGuiWindow* window = GetCurrentWindowRead(); ImGuiOldColumns* columns = window->DC.CurrentColumns; if (columns == NULL) return 0.0f; if (column_index < 0) column_index = columns->Current; IM_ASSERT(column_index < columns->Columns.Size); const float t = columns->Columns[column_index].OffsetNorm; const float x_offset = ImLerp(columns->OffMinX, columns->OffMaxX, t); return x_offset; } static float GetColumnWidthEx(ImGuiOldColumns* columns, int column_index, bool before_resize = false) { if (column_index < 0) column_index = columns->Current; float offset_norm; if (before_resize) offset_norm = columns->Columns[column_index + 1].OffsetNormBeforeResize - columns->Columns[column_index].OffsetNormBeforeResize; else offset_norm = columns->Columns[column_index + 1].OffsetNorm - columns->Columns[column_index].OffsetNorm; return ImGui::GetColumnOffsetFromNorm(columns, offset_norm); } float ImGui::GetColumnWidth(int column_index) { ImGuiContext& g = *GImGui; ImGuiWindow* window = g.CurrentWindow; ImGuiOldColumns* columns = window->DC.CurrentColumns; if (columns == NULL) return GetContentRegionAvail().x; if (column_index < 0) column_index = columns->Current; return GetColumnOffsetFromNorm(columns, columns->Columns[column_index + 1].OffsetNorm - columns->Columns[column_index].OffsetNorm); } void ImGui::SetColumnOffset(int column_index, float offset) { ImGuiContext& g = *GImGui; ImGuiWindow* window = g.CurrentWindow; ImGuiOldColumns* columns = window->DC.CurrentColumns; IM_ASSERT(columns != NULL); if (column_index < 0) column_index = columns->Current; IM_ASSERT(column_index < columns->Columns.Size); const bool preserve_width = !(columns->Flags & ImGuiOldColumnFlags_NoPreserveWidths) && (column_index < columns->Count - 1); const float width = preserve_width ? GetColumnWidthEx(columns, column_index, columns->IsBeingResized) : 0.0f; if (!(columns->Flags & ImGuiOldColumnFlags_NoForceWithinWindow)) offset = ImMin(offset, columns->OffMaxX - g.Style.ColumnsMinSpacing * (columns->Count - column_index)); columns->Columns[column_index].OffsetNorm = GetColumnNormFromOffset(columns, offset - columns->OffMinX); if (preserve_width) SetColumnOffset(column_index + 1, offset + ImMax(g.Style.ColumnsMinSpacing, width)); } void ImGui::SetColumnWidth(int column_index, float width) { ImGuiWindow* window = GetCurrentWindowRead(); ImGuiOldColumns* columns = window->DC.CurrentColumns; IM_ASSERT(columns != NULL); if (column_index < 0) column_index = columns->Current; SetColumnOffset(column_index + 1, GetColumnOffset(column_index) + width); } void ImGui::PushColumnClipRect(int column_index) { ImGuiWindow* window = GetCurrentWindowRead(); ImGuiOldColumns* columns = window->DC.CurrentColumns; if (column_index < 0) column_index = columns->Current; ImGuiOldColumnData* column = &columns->Columns[column_index]; PushClipRect(column->ClipRect.Min, column->ClipRect.Max, false); } // Get into the columns background draw command (which is generally the same draw command as before we called BeginColumns) void ImGui::PushColumnsBackground() { ImGuiWindow* window = GetCurrentWindowRead(); ImGuiOldColumns* columns = window->DC.CurrentColumns; if (columns->Count == 1) return; // Optimization: avoid SetCurrentChannel() + PushClipRect() columns->HostBackupClipRect = window->ClipRect; SetWindowClipRectBeforeSetChannel(window, columns->HostInitialClipRect); columns->Splitter.SetCurrentChannel(window->DrawList, 0); } void ImGui::PopColumnsBackground() { ImGuiWindow* window = GetCurrentWindowRead(); ImGuiOldColumns* columns = window->DC.CurrentColumns; if (columns->Count == 1) return; // Optimization: avoid PopClipRect() + SetCurrentChannel() SetWindowClipRectBeforeSetChannel(window, columns->HostBackupClipRect); columns->Splitter.SetCurrentChannel(window->DrawList, columns->Current + 1); } ImGuiOldColumns* ImGui::FindOrCreateColumns(ImGuiWindow* window, ImGuiID id) { // We have few columns per window so for now we don't need bother much with turning this into a faster lookup. for (int n = 0; n < window->ColumnsStorage.Size; n++) if (window->ColumnsStorage[n].ID == id) return &window->ColumnsStorage[n]; window->ColumnsStorage.push_back(ImGuiOldColumns()); ImGuiOldColumns* columns = &window->ColumnsStorage.back(); columns->ID = id; return columns; } ImGuiID ImGui::GetColumnsID(const char* str_id, int columns_count) { ImGuiWindow* window = GetCurrentWindow(); // Differentiate column ID with an arbitrary prefix for cases where users name their columns set the same as another widget. // In addition, when an identifier isn't explicitly provided we include the number of columns in the hash to make it uniquer. PushID(0x11223347 + (str_id ? 0 : columns_count)); ImGuiID id = window->GetID(str_id ? str_id : "columns"); PopID(); return id; } void ImGui::BeginColumns(const char* str_id, int columns_count, ImGuiOldColumnFlags flags) { ImGuiContext& g = *GImGui; ImGuiWindow* window = GetCurrentWindow(); IM_ASSERT(columns_count >= 1); IM_ASSERT(window->DC.CurrentColumns == NULL); // Nested columns are currently not supported // Acquire storage for the columns set ImGuiID id = GetColumnsID(str_id, columns_count); ImGuiOldColumns* columns = FindOrCreateColumns(window, id); IM_ASSERT(columns->ID == id); columns->Current = 0; columns->Count = columns_count; columns->Flags = flags; window->DC.CurrentColumns = columns; window->DC.NavIsScrollPushableX = false; // Shortcut for NavUpdateCurrentWindowIsScrollPushableX(); columns->HostCursorPosY = window->DC.CursorPos.y; columns->HostCursorMaxPosX = window->DC.CursorMaxPos.x; columns->HostInitialClipRect = window->ClipRect; columns->HostBackupParentWorkRect = window->ParentWorkRect; window->ParentWorkRect = window->WorkRect; // Set state for first column // We aim so that the right-most column will have the same clipping width as other after being clipped by parent ClipRect const float column_padding = g.Style.ItemSpacing.x; const float half_clip_extend_x = ImTrunc(ImMax(window->WindowPadding.x * 0.5f, window->WindowBorderSize)); const float max_1 = window->WorkRect.Max.x + column_padding - ImMax(column_padding - window->WindowPadding.x, 0.0f); const float max_2 = window->WorkRect.Max.x + half_clip_extend_x; columns->OffMinX = window->DC.Indent.x - column_padding + ImMax(column_padding - window->WindowPadding.x, 0.0f); columns->OffMaxX = ImMax(ImMin(max_1, max_2) - window->Pos.x, columns->OffMinX + 1.0f); columns->LineMinY = columns->LineMaxY = window->DC.CursorPos.y; // Clear data if columns count changed if (columns->Columns.Size != 0 && columns->Columns.Size != columns_count + 1) columns->Columns.resize(0); // Initialize default widths columns->IsFirstFrame = (columns->Columns.Size == 0); if (columns->Columns.Size == 0) { columns->Columns.reserve(columns_count + 1); for (int n = 0; n < columns_count + 1; n++) { ImGuiOldColumnData column; column.OffsetNorm = n / (float)columns_count; columns->Columns.push_back(column); } } for (int n = 0; n < columns_count; n++) { // Compute clipping rectangle ImGuiOldColumnData* column = &columns->Columns[n]; float clip_x1 = IM_ROUND(window->Pos.x + GetColumnOffset(n)); float clip_x2 = IM_ROUND(window->Pos.x + GetColumnOffset(n + 1) - 1.0f); column->ClipRect = ImRect(clip_x1, -FLT_MAX, clip_x2, +FLT_MAX); column->ClipRect.ClipWithFull(window->ClipRect); } if (columns->Count > 1) { columns->Splitter.Split(window->DrawList, 1 + columns->Count); columns->Splitter.SetCurrentChannel(window->DrawList, 1); PushColumnClipRect(0); } // We don't generally store Indent.x inside ColumnsOffset because it may be manipulated by the user. float offset_0 = GetColumnOffset(columns->Current); float offset_1 = GetColumnOffset(columns->Current + 1); float width = offset_1 - offset_0; PushItemWidth(width * 0.65f); window->DC.ColumnsOffset.x = ImMax(column_padding - window->WindowPadding.x, 0.0f); window->DC.CursorPos.x = IM_TRUNC(window->Pos.x + window->DC.Indent.x + window->DC.ColumnsOffset.x); window->WorkRect.Max.x = window->Pos.x + offset_1 - column_padding; window->WorkRect.Max.y = window->ContentRegionRect.Max.y; } void ImGui::NextColumn() { ImGuiWindow* window = GetCurrentWindow(); if (window->SkipItems || window->DC.CurrentColumns == NULL) return; ImGuiContext& g = *GImGui; ImGuiOldColumns* columns = window->DC.CurrentColumns; if (columns->Count == 1) { window->DC.CursorPos.x = IM_TRUNC(window->Pos.x + window->DC.Indent.x + window->DC.ColumnsOffset.x); IM_ASSERT(columns->Current == 0); return; } // Next column if (++columns->Current == columns->Count) columns->Current = 0; PopItemWidth(); // Optimization: avoid PopClipRect() + SetCurrentChannel() + PushClipRect() // (which would needlessly attempt to update commands in the wrong channel, then pop or overwrite them), ImGuiOldColumnData* column = &columns->Columns[columns->Current]; SetWindowClipRectBeforeSetChannel(window, column->ClipRect); columns->Splitter.SetCurrentChannel(window->DrawList, columns->Current + 1); const float column_padding = g.Style.ItemSpacing.x; columns->LineMaxY = ImMax(columns->LineMaxY, window->DC.CursorPos.y); if (columns->Current > 0) { // Columns 1+ ignore IndentX (by canceling it out) // FIXME-COLUMNS: Unnecessary, could be locked? window->DC.ColumnsOffset.x = GetColumnOffset(columns->Current) - window->DC.Indent.x + column_padding; } else { // New row/line: column 0 honor IndentX. window->DC.ColumnsOffset.x = ImMax(column_padding - window->WindowPadding.x, 0.0f); window->DC.IsSameLine = false; columns->LineMinY = columns->LineMaxY; } window->DC.CursorPos.x = IM_TRUNC(window->Pos.x + window->DC.Indent.x + window->DC.ColumnsOffset.x); window->DC.CursorPos.y = columns->LineMinY; window->DC.CurrLineSize = ImVec2(0.0f, 0.0f); window->DC.CurrLineTextBaseOffset = 0.0f; // FIXME-COLUMNS: Share code with BeginColumns() - move code on columns setup. float offset_0 = GetColumnOffset(columns->Current); float offset_1 = GetColumnOffset(columns->Current + 1); float width = offset_1 - offset_0; PushItemWidth(width * 0.65f); window->WorkRect.Max.x = window->Pos.x + offset_1 - column_padding; } void ImGui::EndColumns() { ImGuiContext& g = *GImGui; ImGuiWindow* window = GetCurrentWindow(); ImGuiOldColumns* columns = window->DC.CurrentColumns; IM_ASSERT(columns != NULL); PopItemWidth(); if (columns->Count > 1) { PopClipRect(); columns->Splitter.Merge(window->DrawList); } const ImGuiOldColumnFlags flags = columns->Flags; columns->LineMaxY = ImMax(columns->LineMaxY, window->DC.CursorPos.y); window->DC.CursorPos.y = columns->LineMaxY; if (!(flags & ImGuiOldColumnFlags_GrowParentContentsSize)) window->DC.CursorMaxPos.x = columns->HostCursorMaxPosX; // Restore cursor max pos, as columns don't grow parent // Draw columns borders and handle resize // The IsBeingResized flag ensure we preserve pre-resize columns width so back-and-forth are not lossy bool is_being_resized = false; if (!(flags & ImGuiOldColumnFlags_NoBorder) && !window->SkipItems) { // We clip Y boundaries CPU side because very long triangles are mishandled by some GPU drivers. const float y1 = ImMax(columns->HostCursorPosY, window->ClipRect.Min.y); const float y2 = ImMin(window->DC.CursorPos.y, window->ClipRect.Max.y); int dragging_column = -1; for (int n = 1; n < columns->Count; n++) { ImGuiOldColumnData* column = &columns->Columns[n]; float x = window->Pos.x + GetColumnOffset(n); const ImGuiID column_id = columns->ID + ImGuiID(n); const float column_hit_hw = ImTrunc(COLUMNS_HIT_RECT_HALF_THICKNESS * g.CurrentDpiScale); const ImRect column_hit_rect(ImVec2(x - column_hit_hw, y1), ImVec2(x + column_hit_hw, y2)); if (!ItemAdd(column_hit_rect, column_id, NULL, ImGuiItemFlags_NoNav)) continue; bool hovered = false, held = false; if (!(flags & ImGuiOldColumnFlags_NoResize)) { ButtonBehavior(column_hit_rect, column_id, &hovered, &held); if (hovered || held) SetMouseCursor(ImGuiMouseCursor_ResizeEW); if (held && !(column->Flags & ImGuiOldColumnFlags_NoResize)) dragging_column = n; } // Draw column const ImU32 col = GetColorU32(held ? ImGuiCol_SeparatorActive : hovered ? ImGuiCol_SeparatorHovered : ImGuiCol_Separator); const float xi = IM_TRUNC(x); window->DrawList->AddLine(ImVec2(xi, y1 + 1.0f), ImVec2(xi, y2), col); } // Apply dragging after drawing the column lines, so our rendered lines are in sync with how items were displayed during the frame. if (dragging_column != -1) { if (!columns->IsBeingResized) for (int n = 0; n < columns->Count + 1; n++) columns->Columns[n].OffsetNormBeforeResize = columns->Columns[n].OffsetNorm; columns->IsBeingResized = is_being_resized = true; float x = GetDraggedColumnOffset(columns, dragging_column); SetColumnOffset(dragging_column, x); } } columns->IsBeingResized = is_being_resized; window->WorkRect = window->ParentWorkRect; window->ParentWorkRect = columns->HostBackupParentWorkRect; window->DC.CurrentColumns = NULL; window->DC.ColumnsOffset.x = 0.0f; window->DC.CursorPos.x = IM_TRUNC(window->Pos.x + window->DC.Indent.x + window->DC.ColumnsOffset.x); NavUpdateCurrentWindowIsScrollPushableX(); } void ImGui::Columns(int columns_count, const char* id, bool borders) { ImGuiWindow* window = GetCurrentWindow(); IM_ASSERT(columns_count >= 1); ImGuiOldColumnFlags flags = (borders ? 0 : ImGuiOldColumnFlags_NoBorder); //flags |= ImGuiOldColumnFlags_NoPreserveWidths; // NB: Legacy behavior ImGuiOldColumns* columns = window->DC.CurrentColumns; if (columns != NULL && columns->Count == columns_count && columns->Flags == flags) return; if (columns != NULL) EndColumns(); if (columns_count != 1) BeginColumns(id, columns_count, flags); } //------------------------------------------------------------------------- #endif // #ifndef IMGUI_DISABLE