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@@ -37,7 +37,7 @@ that illustrates the physics of the problem.
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Programming as a superior alternative to interactive drawing is
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the mantra of this section.
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-FIGURE: [fig-tut/wheel_on_inclined_plane.png, width=600] Sketch of a physics problem. label{sketcher:fig:inclinedplane}
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+FIGURE: [fig-tut/wheel_on_inclined_plane, width=600] Sketch of a physics problem. label{sketcher:fig:inclinedplane}
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# #ifdef PRIMER_BOOK
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Classes are very suitable for implementing the various components that
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@@ -73,7 +73,7 @@ several elements: two circles, two rectangles, and a ``ground'' element.
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# #endif
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-FIGURE: [fig-tut/vehicle0_dim.png, width=600] Sketch of a simple figure. label{sketcher:fig:vehicle0}
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+FIGURE: [fig-tut/vehicle0_dim, width=600] Sketch of a simple figure. label{sketcher:fig:vehicle0}
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=== Basic Drawing ===
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@@ -289,7 +289,7 @@ running the `dot` program:
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Terminal> dot -Tpng -o fig.png fig.dot
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!ec
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-FIGURE: [fig-tut/vehicle0_hier1.png, width=500] Hierarchical relation between figure objects. label{sketcher:fig:vehicle0:hier1}
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+FIGURE: [fig-tut/vehicle0_hier1, width=500 frac=0.8] Hierarchical relation between figure objects. label{sketcher:fig:vehicle0:hier1}
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The call `fig.graphviz_dot('fig', classname=True)` makes a `fig.dot` file
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@@ -298,7 +298,7 @@ Figure ref{sketcher:fig:vehicle0:hier2}. The ability to write out the
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object hierarchy or view it graphically can be of great help when
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working with complex figures that involve layers of subfigures.
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-FIGURE: [fig-tut/vehicle0_hier2.png, width=500] Hierarchical relation between figure objects, including their class names. label{sketcher:fig:vehicle0:hier2}
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+FIGURE: [fig-tut/vehicle0_hier2, width=500 frac=0.8] Hierarchical relation between figure objects, including their class names. label{sketcher:fig:vehicle0:hier2}
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Any of the objects can in the program be reached through their names, e.g.,
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!bc pycod
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@@ -330,7 +330,7 @@ accesses the `Rectangle` object which will then set the linewidth of
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its `Curve` object, and other objects if it had any.
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The result of the actions above is shown in Figure ref{sketcher:fig:vehicle0:v2}.
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-FIGURE: [fig-tut/vehicle0.png, width=700] Left: Basic line-based drawing. Right: Thicker lines and filled parts. label{sketcher:fig:vehicle0:v2}
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+FIGURE: [fig-tut/vehicle0, width=700] Left: Basic line-based drawing. Right: Thicker lines and filled parts. label{sketcher:fig:vehicle0:v2}
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We can also change position of parts of the figure and thereby make
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animations, as shown next.
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@@ -473,7 +473,7 @@ Observe that `wheel1.copy()` copies all the objects that make
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up the first wheel, and `wheel2.translate` translates all
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the copied objects.
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-FIGURE: [fig-tut/vehicle1.png, width=400] Wheels with spokes to illustrate rolling. label{sketcher:fig:vehicle1}
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+FIGURE: [fig-tut/vehicle1, width=400 frac=0.8] Wheels with spokes to illustrate rolling. label{sketcher:fig:vehicle1}
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The `move` function now needs to displace all the objects in the
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entire vehicle and also rotate the `cross1` and `cross2`
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Hans Petter Langtangen