package gui import ( "image/color" "log" "github.com/andlabs/ui" "golang.org/x/image/font" _ "github.com/andlabs/ui/winmanifest" ) // // All GUI Data Structures and functions that are external // If you need cross platform support, these might only // be the safe way to interact with the GUI // var Data GuiData var Config GuiConfig type GuiConfig struct { Width int Height int Debug bool DebugTable bool Exit func(*GuiWindow) } type GuiData struct { // a fallback default function to handle mouse events // if nothing else is defined to handle them MouseClick func(*GuiButton) // A map of all the entry boxes AllEntries []*GuiEntry WindowMap map[string]*GuiWindow // Windows []*GuiWindow // A map of all buttons everywhere on all // windows, all tabs, across all goroutines // This is "GLOBAL" // // This has to work this way because of how // andlabs/ui & andlabs/libui work AllButtons []*GuiButton buttonMap map[*ui.Button]*GuiButton Nodes *Node } type GuiTab struct { Name string // field for human readable name Number int // the andlabs/ui tab index Window *GuiWindow // the parent Window } // // stores information on the 'window' // // This merges the concept of andlabs/ui *Window and *Tab // // More than one Window is not supported in a cross platform // sense & may never be. On Windows and MacOS, you have to have // 'tabs'. Even under Linux, more than one Window is currently // unstable // // This code will make a 'GuiWindow' regardless of if it is // a stand alone window (which is more or less working on Linux) // or a 'tab' inside a window (which is all that works on MacOS // and MSWindows. // // This struct keeps track of what is in the window so you // can destroy and replace it with something else // type GuiWindow struct { Name string // field for human readable name Width int Height int Axis int // does it add items to the X or Y axis TabNumber *int // the andlabs/ui tab index // the callback function to make the window contents // MakeWindow func(*GuiBox) *GuiBox // the components of the window BoxMap map[string]*GuiBox EntryMap map[string]*GuiEntry Area *GuiArea // andlabs/ui abstraction mapping UiWindow *ui.Window UiTab *ui.Tab // if this != nil, the window is 'tabbed' } // GuiBox is any type of ui.Hbox or ui.Vbox // There can be lots of these for each GuiWindow type GuiBox struct { Name string // field for human readable name Axis int // does it add items to the X or Y axis Window *GuiWindow // the parent Window // andlabs/ui abstraction mapping UiBox *ui.Box } func (s GuiBox) SetTitle(title string) { log.Println("DID IT!", title) if s.Window == nil { return } if s.Window.UiWindow == nil { return } s.Window.UiWindow.SetTitle(title) return } func (s GuiBox) Append(child ui.Control, x bool) { if s.UiBox == nil { return } s.UiBox.Append(child, x) } /* func (w GuiWindow) InitWindow(title string) *GuiBox { if w.UiWindow == nil { log.Println("gui.InitBox() THIS SHOULD NEVER HAPPEN. Window doesn't exist", w) return nil } tab := ui.NewTab() w.UiWindow.SetChild(tab) w.UiWindow.SetMargined(true) tab.Append(title, InitBlankWindow()) tab.SetMargined(0, true) w.UiTab = tab return nil } */ func (s GuiBox) InitTab(title string, custom func() ui.Control) *ui.Tab { if s.Window == nil { return nil } if s.Window.UiWindow == nil { return nil } window := s.Window.UiWindow tab := ui.NewTab() window.SetChild(tab) window.SetMargined(true) tab.Append(title, custom()) tab.SetMargined(0, true) // tab.SetMargined(1, true) s.Window.UiTab = tab return tab } func (s GuiBox) AddTab(title string, custom ui.Control) *ui.Tab { if s.Window == nil { return nil } if s.Window.UiTab == nil { return nil } tab := s.Window.UiTab tab.Append(title, custom) return tab } func (s GuiBox) AddTab2(title string, custom ui.Control) *ui.Tab { if s.Window == nil { return nil } if s.Window.UiTab == nil { return nil } tab := s.Window.UiTab tab.Append(title, custom) return tab } func (s GuiBox) AddBoxTab(title string) *GuiBox { uiTab := s.AddTab2(title, InitBlankWindow()) tabSetMargined(uiTab) var box *GuiBox box = HardBox(s.Window, Xaxis, "jcarrAddBoxTab") box.Window.UiTab = uiTab return box } func (s GuiBox) AddDemoTab(title string) { uiTab := s.AddTab(title, makeWindowTemplate()) tabSetMargined(uiTab) } func (s GuiBox) AddDebugTab(title string) { uiTab := s.AddTab(title, makeWindowDebug()) tabSetMargined(uiTab) } func tabSetMargined(tab *ui.Tab) { c := tab.NumPages() for i := 0; i < c; i++ { log.Println("tabSetMargined() i =", i) // tab.SetMargined(i, true) } } // Note: every mouse click is handled // as a 'Button' regardless of where // the user clicks it. You could probably // call this 'GuiMouseClick' type GuiButton struct { Name string // field for human readable name Box *GuiBox // what box the button click was in // a callback function for the main application Custom func(*GuiButton) Values interface{} Color color.RGBA // andlabs/ui abstraction mapping B *ui.Button FB *ui.FontButton CB *ui.ColorButton } // text entry fields type GuiEntry struct { Name string // field for human readable name Edit bool Last string // the last value Normalize func(string) string // function to 'normalize' the data B *GuiButton Box *GuiBox // andlabs/ui abstraction mapping UiEntry *ui.Entry } // // AREA STRUCTURES START // AREA STRUCTURES START // AREA STRUCTURES START // type GuiArea struct { Button *GuiButton // what button handles mouse events Box *GuiBox UiAttrstr *ui.AttributedString UiArea *ui.Area } type FontString struct { S string Size int F font.Face W font.Weight } // // AREA STRUCTURES END // AREA STRUCTURES END // AREA STRUCTURES END // // // TABLE DATA STRUCTURES START // TABLE DATA STRUCTURES START // TABLE DATA STRUCTURES START // // // This is the structure that andlabs/ui uses to pass information // to the GUI. This is the "authoritative" data. // type TableData struct { RowCount int // This is the number of 'rows' which really means data elements not what the human sees RowWidth int // This is how wide each row is Rows []RowData // This is all the table data by row generatedColumnTypes []ui.TableValue // generate this dynamically Cells [20]CellData Human [20]HumanMap Box *GuiBox lastRow int lastColumn int } // // This maps the andlabs/ui & libui components into a "human" // readable cell reference list. The reason is that there // are potentially 3 values for each cell. The Text, the Color // and an image. These are not always needed so the number // of fields varies between 1 and 3. Internally, the toolkit // GUI abstraction needs to list all of them, but it's then // hard to figure out which column goes with the columns that // you see when you visually are looking at it like a spreadsheet // // This makes a map so that we can say "give me the value at // row 4 and column 2" and find the fields that are needed // // TODO: re-add images and the progress bar (works in andlabs/ui) // type HumanCellData struct { Name string // what kind of row is this? Text string TextID int Color color.RGBA ColorID int Button *GuiButton } type HumanMap struct { Name string // what kind of row is this? TextID int ColorID int } type TableColumnData struct { Index int CellType string Heading string Color string } type CellData struct { Index int HumanID int Name string // what type of cell is this? } // hmm. will this stand the test of time? type RowData struct { Name string // what kind of row is this? Status string // status of the row? /* // TODO: These may or may not be implementable // depending on if it's possible to detect the bgcolor or what row is selected click func() // what function to call if the user clicks on it doubleclick func() // what function to call if the user double clicks on it */ HumanData [20]HumanCellData } // // TABLE DATA STRUCTURES END //