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1 | \section{Constraints overview}\label{constraintsoverview} |
2 | ||
3 | Classes: \helpref{wxLayoutConstraints}{wxlayoutconstraints}, \helpref{wxIndividualLayoutConstraint}{wxindividuallayoutconstraint}. | |
4 | ||
1c0c339c | 5 | {\bf Note:} constraints are now deprecated and you should use \helpref{sizers}{sizeroverview} instead. |
bd330a69 | 6 | |
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7 | Objects of class wxLayoutConstraint can be associated with a window to define |
8 | the way it is laid out, with respect to its siblings or the parent. | |
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9 | |
10 | The class consists of the following eight constraints of class wxIndividualLayoutConstraint, | |
11 | some or all of which should be accessed directly to set the appropriate | |
12 | constraints. | |
13 | ||
14 | \begin{itemize}\itemsep=0pt | |
15 | \item {\bf left:} represents the left hand edge of the window | |
16 | \item {\bf right:} represents the right hand edge of the window | |
17 | \item {\bf top:} represents the top edge of the window | |
18 | \item {\bf bottom:} represents the bottom edge of the window | |
19 | \item {\bf width:} represents the width of the window | |
20 | \item {\bf height:} represents the height of the window | |
21 | \item {\bf centreX:} represents the horizontal centre point of the window | |
22 | \item {\bf centreY:} represents the vertical centre point of the window | |
23 | \end{itemize} | |
24 | ||
945bda7d | 25 | The constraints are initially set to have the relationship wxUnconstrained, |
a660d684 | 26 | which means that their values should be calculated by looking at known constraints. |
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27 | To calculate the position and size of the control, the layout algorithm needs to |
28 | know exactly 4 constraints (as it has 4 numbers to calculate from them), so you | |
29 | should always set exactly 4 of the constraints from the above table. | |
30 | ||
31 | If you want the controls height or width to have the default value, you may use | |
32 | a special value for the constraint: wxAsIs. If the constraint is wxAsIs, the | |
33 | dimension will not be changed which is useful for the dialog controls which | |
34 | often have the default size (e.g. the buttons whose size is determined by their | |
35 | label). | |
36 | ||
37 | The constrains calculation is done in \helpref{wxWindow::Layout}{wxwindowlayout} | |
38 | function which evaluates constraints. To call it you can either call | |
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39 | \helpref{wxWindow::SetAutoLayout}{wxwindowsetautolayout} if the parent window |
40 | is a frame, panel or a dialog to tell default OnSize handlers to call Layout | |
41 | automatically whenever the window size changes, or override OnSize and call | |
42 | Layout yourself (note that you do have to call | |
43 | \helpref{Layout}{wxwindowlayout} yourself if the parent window is not a | |
44 | frame, panel or dialog). | |
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45 | |
46 | \subsection{Constraint layout: more detail} | |
47 | ||
48 | By default, windows do not have a wxLayoutConstraints object. In this case, much layout | |
49 | must be done explicitly, by performing calculations in OnSize members, except | |
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50 | for the case of frames that have exactly one subwindow (not counting toolbar and |
51 | statusbar which are also positioned by the frame automatically), where wxFrame::OnSize | |
52 | takes care of resizing the child to always fill the frame. | |
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53 | |
54 | To avoid the need for these rather awkward calculations, the user can create | |
55 | a wxLayoutConstraints object and associate it with a window with wxWindow::SetConstraints. | |
56 | This object contains a constraint for each of the window edges, two for the centre point, | |
57 | and two for the window size. By setting some or all of these constraints appropriately, | |
58 | the user can achieve quite complex layout by defining relationships between windows. | |
59 | ||
60 | In wxWindows, each window can be constrained relative to either its {\it | |
61 | siblings} on the same window, or the {\it parent}. The layout algorithm | |
62 | therefore operates in a top-down manner, finding the correct layout for | |
63 | the children of a window, then the layout for the grandchildren, and so | |
64 | on. Note that this differs markedly from native Motif layout, where | |
65 | constraints can ripple upwards and can eventually change the frame | |
66 | window or dialog box size. We assume in wxWindows that the {\it user} is | |
67 | always `boss' and specifies the size of the outer window, to which | |
68 | subwindows must conform. Obviously, this might be a limitation in some | |
69 | circumstances, but it suffices for most situations, and the | |
70 | simplification avoids some of the nightmarish problems associated with | |
71 | programming Motif. | |
72 | ||
73 | When the user sets constraints, many of the constraints for windows | |
74 | edges and dimensions remain unconstrained. For a given window, | |
75 | the wxWindow::Layout algorithm first resets all constraints | |
76 | in all children to have unknown edge or dimension values, and then iterates through the constraints, | |
f6bcfd97 | 77 | evaluating them. For unconstrained edges and dimensions, it |
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78 | tries to find the value using known relationships that always hold. For example, |
79 | an unconstrained {\it width} may be calculated from the {\it left} and {\it right edges}, if | |
80 | both are currently known. For edges and dimensions with user-supplied constraints, these | |
f6bcfd97 | 81 | constraints are evaluated if the inputs of the constraint are known. |
a660d684 | 82 | |
f6bcfd97 | 83 | The algorithm stops when all child edges and dimension are known (success), or |
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84 | there are unknown edges or dimensions but there has been no change in this cycle (failure). |
85 | ||
86 | It then sets all the window positions and sizes according to the values it has found. | |
87 | ||
88 | Because the algorithm is iterative, the order in which constraints are considered is | |
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89 | irrelevant, however you may reduce the number of iterations (and thus speed up |
90 | the layout calculations) by creating the controls in such order that as many | |
91 | constraints as possible can be calculated during the first iteration. For example, if | |
92 | you have 2 buttons which you'd like to position in the lower right corner, it is | |
f6bcfd97 | 93 | slightly more efficient to first create the second button and specify that its |
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94 | right border IsSameAs(parent, wxRight) and then create the first one by |
95 | specifying that it should be LeftOf() the second one than to do in a more | |
96 | natural left-to-right order. | |
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97 | |
98 | \subsection{Window layout examples}\label{layoutexamples} | |
99 | ||
100 | \subsubsection{Example 1: subwindow layout} | |
101 | ||
fe604ccd | 102 | This example specifies a panel and a window side by side, |
945bda7d | 103 | with a text subwindow below it. |
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104 | |
105 | \begin{verbatim} | |
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106 | frame->panel = new wxPanel(frame, -1, wxPoint(0, 0), wxSize(1000, 500), 0); |
107 | frame->scrollWindow = new MyScrolledWindow(frame, -1, wxPoint(0, 0), wxSize(400, 400), wxRETAINED); | |
108 | frame->text_window = new MyTextWindow(frame, -1, wxPoint(0, 250), wxSize(400, 250)); | |
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109 | |
110 | // Set constraints for panel subwindow | |
111 | wxLayoutConstraints *c1 = new wxLayoutConstraints; | |
112 | ||
113 | c1->left.SameAs (frame, wxLeft); | |
114 | c1->top.SameAs (frame, wxTop); | |
115 | c1->right.PercentOf (frame, wxWidth, 50); | |
116 | c1->height.PercentOf (frame, wxHeight, 50); | |
117 | ||
118 | frame->panel->SetConstraints(c1); | |
119 | ||
fe604ccd | 120 | // Set constraints for scrollWindow subwindow |
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121 | wxLayoutConstraints *c2 = new wxLayoutConstraints; |
122 | ||
123 | c2->left.SameAs (frame->panel, wxRight); | |
124 | c2->top.SameAs (frame, wxTop); | |
125 | c2->right.SameAs (frame, wxRight); | |
126 | c2->height.PercentOf (frame, wxHeight, 50); | |
127 | ||
fe604ccd | 128 | frame->scrollWindow->SetConstraints(c2); |
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129 | |
130 | // Set constraints for text subwindow | |
131 | wxLayoutConstraints *c3 = new wxLayoutConstraints; | |
132 | c3->left.SameAs (frame, wxLeft); | |
133 | c3->top.Below (frame->panel); | |
134 | c3->right.SameAs (frame, wxRight); | |
135 | c3->bottom.SameAs (frame, wxBottom); | |
136 | ||
137 | frame->text_window->SetConstraints(c3); | |
138 | \end{verbatim} | |
139 | ||
140 | \subsubsection{Example 2: panel item layout} | |
141 | ||
142 | This example sizes a button width to 80 percent of the panel width, and centres | |
143 | it horizontally. A listbox and multitext item are placed below it. The listbox | |
144 | takes up 40 percent of the panel width, and the multitext item takes up | |
145 | the remainder of the width. Margins of 5 pixels are used. | |
146 | ||
147 | \begin{verbatim} | |
148 | // Create some panel items | |
fe604ccd | 149 | wxButton *btn1 = new wxButton(frame->panel, -1, "A button") ; |
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150 | |
151 | wxLayoutConstraints *b1 = new wxLayoutConstraints; | |
152 | b1->centreX.SameAs (frame->panel, wxCentreX); | |
153 | b1->top.SameAs (frame->panel, wxTop, 5); | |
154 | b1->width.PercentOf (frame->panel, wxWidth, 80); | |
155 | b1->height.PercentOf (frame->panel, wxHeight, 10); | |
156 | btn1->SetConstraints(b1); | |
157 | ||
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158 | wxListBox *list = new wxListBox(frame->panel, -1, "A list", |
159 | wxPoint(-1, -1), wxSize(200, 100)); | |
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160 | |
161 | wxLayoutConstraints *b2 = new wxLayoutConstraints; | |
162 | b2->top.Below (btn1, 5); | |
163 | b2->left.SameAs (frame->panel, wxLeft, 5); | |
164 | b2->width.PercentOf (frame->panel, wxWidth, 40); | |
165 | b2->bottom.SameAs (frame->panel, wxBottom, 5); | |
166 | list->SetConstraints(b2); | |
167 | ||
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168 | wxTextCtrl *mtext = new wxTextCtrl(frame->panel, -1, "Multiline text", "Some text", |
169 | wxPoint(-1, -1), wxSize(150, 100), wxTE_MULTILINE); | |
945bda7d | 170 | |
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171 | wxLayoutConstraints *b3 = new wxLayoutConstraints; |
172 | b3->top.Below (btn1, 5); | |
173 | b3->left.RightOf (list, 5); | |
174 | b3->right.SameAs (frame->panel, wxRight, 5); | |
175 | b3->bottom.SameAs (frame->panel, wxBottom, 5); | |
176 | mtext->SetConstraints(b3); | |
177 | \end{verbatim} | |
178 | ||
179 |