Re: [NTG-context] One interline space setup trouble
Hi, Sorry for my strive for perfection, but if I set new interline space in delimited text using 'before' key, the space BEFORE is affected by \setupinterlinespace, while the space AFTER does not. The result is a paragraph with visibly unbalanced surroundings. Is there a way to set the spaces equal without manual adjusting? Example: \setupinterlinespace[line=18pt] \definedelimitedtext [example] [spacebefore=small, style=\tfx, before={\setupinterlinespace[line=12pt]}] \starttext Most models we discussing here are specification of dynamic behaviour of SUI. This behaviour is described in terms of the interactions over time among some entities. The entities in question fall into two broad categories: {\em endogenous} (intrinsic to the SUI itself) and {\em exogenous} (belonging to a system's environment). \startexample All processes that take place inside Earth (and other planets) are considered endogenous. These processes make the continents migrate, push the mountains up, trigger earthquakes and volcanism, and are driven by the warmth that is produced in the core of Earth. Exogenous processes are all taking place at the outside of the Earth. Weathering, erosion, transportation and sedimentation are the main exogenous processes.\stopexample Constants and parameters serve as names for the values that do not change during a simulation run. In the case of a {\em constant}, the assigned value remains invariant over all experiments. Often it is a physical constant, like $g$ -- force of gravity. In the case of a {\em parameter}, there normally is an intent to explore the effect upon behaviour of a range of different values for the parameter. \stoptext B.R., Vyatcheslav
Am 17.02.10 00:56, schrieb Vyatcheslav Yatskovsky:
Hi,
Sorry for my strive for perfection, but if I set new interline space in delimited text using 'before' key, the space BEFORE is affected by \setupinterlinespace, while the space AFTER does not. The result is a paragraph with visibly unbalanced surroundings. Is there a way to set the spaces equal without manual adjusting? The spaces are equal when as you can see on the second page, to get a better result set different value before and after the example environment.
\setupinterlinespace[line=18pt] \definedelimitedtext [example] [spacebefore=small, %spacebefore=medium, %spaceafter=small, style=\tfx, before={\setupinterlinespace[line=12pt]}] \showgrid \starttext Most models we discussing here are specification of dynamic behaviour of SUI. This behaviour is described in terms of the interactions over time among some entities. The entities in question fall into two broad categories: {\em endogenous} (intrinsic to the SUI itself) and {\em exogenous} (belonging to a system's environment). \startexample All processes that take place inside Earth (and other planets) are considered endogenous. These processes make the continents migrate, push the mountains up, trigger earthquakes and volcanism, and are driven by the warmth that is produced in the core of Earth. Exogenous processes are all taking place at the outside of the Earth. Weathering, erosion, transportation and sedimentation are the main exogenous processes. \stopexample Constants and parameters serve as names for the values that do not change during a simulation run. In the case of a {\em constant}, the assigned value remains invariant over all experiments. Often it is a physical constant, like $g$ -- force of gravity. In the case of a {\em parameter}, there normally is an intent to explore the effect upon behaviour of a range of different values for the parameter. \page \ruledvtop{\begstrut Most models we discussing here are specification of dynamic behaviour of SUI. This behaviour is described in terms of the interactions over time among some entities. The entities in question fall into two broad categories: {\em endogenous} (intrinsic to the SUI itself) and {\em exogenous} (belonging to a system's environment).\endstrut} \startexample \ruledvtop{\begstrut All processes that take place inside Earth (and other planets) are considered endogenous. These processes make the continents migrate, push the mountains up, trigger earthquakes and volcanism, and are driven by the warmth that is produced in the core of Earth. Exogenous processes are all taking place at the outside of the Earth. Weathering, erosion, transportation and sedimentation are the main exogenous processes.\endstrut} \stopexample \ruledvtop{\begstrut Constants and parameters serve as names for the values that do not change during a simulation run. In the case of a {\em constant}, the assigned value remains invariant over all experiments. Often it is a physical constant, like $g$ -- force of gravity. In the case of a {\em parameter}, there normally is an intent to explore the effect upon behaviour of a range of different values for the parameter.\endstrut} \stoptext Wolfgang
participants (2)
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Vyatcheslav Yatskovsky
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Wolfgang Schuster