A Simple demo of the ProShow Layer Location

ProShow fails to report a layer’s actual position when that layer has been rotated on a rotation center located at other than layer center. This demo shows the use of FPVPs “Tools for ProShow” to calculate a layer’s actual or adjusted position. It also clearly demonstrates ProShow’s failure to properly report a layer’s actual position as described above.

A ProShow layer’s position is normally reported as the location of the layer’s center point. However, the location is incorrect for cases when the layer has been rotated on a point that is not the layer’s center. This has been the case since the Rotate Center function was introduced with ProShow version 4.

My Tools For ProShow is fully capable of calculating a layers true or adjusted position when it has been rotated on a rotation center.

You can view the short and simple demo here:
Demo Of ProShow Positioning “Glitch.”

Dale

Advanced Outlines & Frames in ProShow

ProShow’s outlining features are quite underwhelming … having remained essentially unchanged since they were introduced sometime around 2006 or so. When they’ll get around to updating them is anyone’s guess. But, way over 10 years without any changes is surprising.

As implemented, ProShow’s outlines are often not narrow enough or not wide enough. The same goes for ProShow’s shadow feature. If you want or need something other than the woefully limited options ProShow provides, you are on your own. It helps to have a tool that does the math for you … making things considerably easier to accomplish.

Tools For ProShow  fits the bill in this case. It makes it easy to create layers that you can use for outlines or frames or shadows that would otherwise be extremely difficult or time-consuming to create correctly. This tutorial does not show the Tools for ProShow in action; only the resulting values for this tutorial exercise are provided.

This tutorial provides but one example of what can be done with ProShow’s feature set using what are effectively user created outlines. You can either use graphics (PSP/PSG) or PSP solid/gradient layers. Gold has a bit of a problem properly handling graphics with translucence (that is, opacity at other than 100%). Also, Gold has no blur capabilities. So, if you’re creating outlines/frames in Gold … you may find yourself adapting your graphics to account for Gold’s limitation.

You can view the tutorial on YouTube:
https://youtu.be/Dms9pZ1ksqk

-Dale

Tools For ProShow Update (v11.42c)

An updated version of my tools for proshow was released on 2 September 2017. There were 57 changes made since the last release. Photodex changed the way that zoom modifiers worked. So, the worksheet was updated accordingly.  A number of changes to the tools were related to zoom modifiers. Another change was the ability to add a set of 4 user defined layer aspects to the Layer information section. It’s sort of like a “favorites” addition.

So, I was busy there for awhile. Sorry … forgot to update this blog with that updated information.

Tools For ProShow, v11.33a

Released recently, there’ve been some 88 changes to the various tools in the worksheet since the release of v11.21 (released some 22 days ago as of this publication).

Many of the changes between the last release and this one are under the hood changes. However, considerable work went into improving and enhancing the Layer: Outlines/Frames tool. Quite a bit of work went into the Findings tools of Cover Layer During Rotation and Largest Width During Rotation. These latter two tools should now work correctly for any scale of layer. You never know when you might need to know the minimum width you need for when you’re rotating a layer or just how wide that layer might be for a given value of zoom.

Fractional values of a layer’s aspect are now provided as are the angles formed by a diagonal between two opposing corners. Sometimes that information can prove helpful, if not enlightening when you’re creating an effect.

You can now compare the widths between the 3 Findings Layers. Further, you are told the amount of space on each side of a layer for its given scale, aspect, zoom, and position.

What’s more, a version of the Tools For ProShow is now also provided in OpenOffice format with this release, v11.33a. This format had been discontinued as of v10.11jf for performance reasons.

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TOOLS FOR PROSHOW. Rotation: Location of Layer

Well, it’s been awhile since I have done anything with ProShow. A few piddling things here and there, but I haven’t followed up on much of anything. I did however, work a fair amount on my Tools For ProShow. I did some work in early January but then, the tax season hit and I got slammed with work. I was working over 120 hours per pay period (I am a tax preparer completing both corporate and individual taxes). So, I did next to nothing else until after tax season ended. Then, I took 2 months off.

New Release of Tools for ProShow. I recently finished off a bunch of changes in the worksheet, many minor and some not quite so minor. The most recent release is now available at my site: v11.21. You can find it here:  http://fenimorephotovideos.com/FPVP_Tools_wp.html

Providing a layer aspect for use by many of the Tools is now much more flexible than in previous releases. Dropdown lists are now much easier to identify. Numerous tweaks of the calculations were made to make them faster, overall. Some were simplified. The reset buttons (macro driven) now work only within their respective sections.

Layer: Aspect/Dimensions (User Values) replaces Layer Information. The option to enter the layer’s scale was removed. The tool using the selected layer makes the scale selection as appropriate. Additionally, a selection of a pre-defined aspect is now provided for each user aspect value.

Findings. Select one of the three user provided aspects. Or, select a predefined aspect from the dropdown list. Select the desired scale for the layer.

Rotation: Location of Layer. This tools provides the actual location of a layer that has been rotated on a non-zero rotate center. A layer’s location is defined by its center point. So, when the layer is rotated on a point other than its center, it’s physical location is not what ProShow reports. Additionally, if you provide a desired position at which to place the layer, the appropriate pan values (location) to place it there are provided.

This link provides access to a demonstration of the use of this tool: https://youtu.be/74-n9bIPvuw

Layer: Outlines/Frames. Considerably revamped and enhanced. When a Change in Zoom is given for the normalized axis (except for Safe Zone selections), it is doubled and added to the final zoom for that axis (effectively, the change in zoom is the amount for EACH layer side). The tool provides the ability to create a Polaroid outline (one size much larger than the other three).

The ∆ ↔↕ (delta width and height) tool simply shows the difference in width and height between the Findings Layers 1, 2, and 3. This can prove helpful if you need to comparing layer sizes.

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Updates

I have been busy lately … compiling information and rewriting topics I have previously created. I have rearranged, revised, and updated the blog entries. Generally, the information posted should be easier to read and topics to find. Blogs have some significant limitations to making information really easy to find and read  … but I have tried to minimize those limitations wherever I could.

One thing I discovered was that this blog contained more information than I thought was there. Another was how much information needed some updating. Some of it was current as of Proshow Release 4.52 and here we are using version 6. Much has changed since then.

The introduction to Proshow, ProShow Discussion, has its own chapter now as does the ProShow Equations (this establishes the relationship between the functions of Pan, Zoom, and Rotate Center, how layer width and height are determined, and the relationship of the show and layer aspects).

Useful for nearly any user expertise level, most of the information presented is for users familiar with ProShow, particularly the advanced and expert user. Basically, this is information that is not in the ProShow manual … it’s beyond the manual. Peruse, study, and Enjoy.

Dale

Converting Layer Types

Some time ago, I advised that you create you solid layers using gradient layers. That’s because gradient layers can simulate solid color layers but the reverse isn’t true. This was important because, if you were developing a show using these solid color layers (as masks, borders, outlines, and / or shadows), if you needed or wanted multiple colors in the layer, it was impossible. Whereas you can duplicate the layer to retain all of the keyframes and their settings, you could never change the solid layer to get those multiple colors. Well, that’s not necessarily true.  You CAN change the layer type AND retain all of its keyframes and their settings. This means, for example, that you can do a lot of the initial development work with a solid color layer. You add all of the necessary keyframes and then set the pan and size settings for each keyframe. You intend for this layer to be your layer mask. Now, you can duplicate the layer to retain all of the settings you just made. Now, make it a mask (the duplicate layer is now masking the original solid layer). Finally you can copy the image layer onto the slide. Then you will use the image layer to convert the masked layer to an image. After the conversion you can delete the image. For your result, you will have an image masked by a solid layer and both will have the exact same keyframes and settings. Fast, efficient, easy!

CREATING THE LAYER CONVERSION
To make the change, you need a source layer and a destination layer. The source and destination layers may be on any slide.Right click on the layer that you want to copy. A menu will appear. Hover over the Copy option. A set of copy options will appear; click on Copy Settings. This opens the Copy Settings dialog which has 3 columns: Source Layer, Settings to Copy, and Destination Layers. The source layer is selected. In the Destination Layers section, click on the “+” for the slide on which you’ll copy layer settings to. Next, select the layer that will accept the changes. Now, let’s assume that the source layer is Gradient that is colored bright red to dark red and the destination layer is a white solid layer. So, in the Settings to Copy column, select Gradient under the General Section. When you do that, Enable Layer and Image Type are also selected. Now click on Copy & Close. You are done. If you look at the layer on the slide to which you just copied the settings to, you should see that it is no longer a white solid layer. Instead, it is now a gradient layer that is colored bright red to dark red.

What is really nice about this is that you can convert a gradient to a solid, an image layer, or another gradient. You can likewise convert a graphic or image to a gradient, solid, or another graphic/image. The solid can be converted to another solid color, an image layer, or a gradient. That’s really nice and can prove very handy at times. Further, you can convert multiple layers at the same time.

AN EXAMPLE CONVERSION

In this example, I want to convert the blue gradient to the same color as the green gradient. But, I don’t want to mess with the color settings. The easy way is to just copy the green gradient onto the blue gradient using copy settings.

In the graphic below, the Green Gradient is selected as the Source layer. In the Settings to Copy, under the General section, the following are selected: Enable layer, Layer Type, and Gradient (selecting Gradient will automatically select the other 2).

 

 

 

 

 

In the Destination Layers column, I’ve expanded the slide containing the layer I want the settings copied to and I’ve selected the Blue gradient layer. Finally, I’ll select Copy & Close. This following graphic shows the result of what was just done. Note that the last layer is now no longer blue.

 

Copyright © 130129-1945, Dale Fenimore, FPVP LLC

Zoom Following (Technique 1); Summary Tips

This article simply synopsizes my first Zoom Following technique. It was something I discovered in the October/November 2009 timeframe. Of all the functions provided by ProShow, only the values in the zoom box are not directly usable via a modifier. You can follow the value of any other layer’s function values (pan, rotation, tilt, opacity, blur etc) easily. The value you see in the zoom box, however, is NOT what a ProShow modifier sees. ProShow saw fit to cause a reference to a lower level of functioning. That value is something like a percent of a percent … but more than that. Somehow, ProShow sees the zoom settings along the entire timeline through the value in the zoom box. I don’t know how it’s done … I just know that it is. It’s something I discovered while working out the 2nd technique for zoom following. For that version, see  Simple Modifier-Based Zoom for an introduction to it (discovered around the October/November 2011 timeframe). It shares none of same limitations of the 1st technique, save for the reference to rotation and tilt (both still break the technique).

ASSUMPTION. Assume Layer 1 is the layer being followed and Layer 2 is the layer doing the following.

ZOOM FOLLOWING (of another layer).
Hover over the Zoom-X (or Zoom-Y) Box. Right click. Select Add modifier.  Variable Amount Based On: Zoom-X (or Zoom-Y); From: Layer 1;  Multiplied By: 1; (this is the first action)
Add another action: Click on the big “+” in the Actions title line.
Set Type of Action to [-] Subtract from Modifier;  Constant Amount: 100.

These actions should apply to ALL KEYFRAMES.
The two actions should look like the following:

+ Zoom X from Layer 1 (“Gradient #”)
-100

where, “Gradient #” refers to the type of layer being followed and its layer number.

NOTE: Set the Zoom-X and Zoom-Y values to the largest value of Zoom on the layer begin followed.

NOTES and LIMITATIONS

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1.    If the layer being followed has a maximum zoom of 90, then the largest zoom of the follower layer is set to 90. If the largest zoom followed layer is 110, then set the follower layer’s zoom to 110.
2.    If the value of the maximum zoom is over 200 the dependent layers may not zoom down to zero the same as the master layer. This is NOT necessarily true but may depend on your scale settings. For instance, if you’re using a scale of “Fit to Safe Zone,” you may see it sooner than if you are using a scale of “Fill Frame.”
3.     Zoom actions … when you follow the zoom of another layer, you’re using a value that appears to be interpreted as percent of a percent in the referencing/following layers’ zoom (unexpected zoom values are possible if you don’t provide a correction value). Adding the -100 action after the zoom reference to the master layer seems to create a correction that works well for most zoom values below a maximum zoom of 200 in the master/reference layer.
4.    DO NOT enter a rotation amount for any of these layers. For some reason, a rotation breaks this “fix” I’ve discovered.
5.    TILT cannot be used with this technique of zoom following either. Tile is a form of rotation. Even a simple reference to the tilt box will corrupt the link. The function Tilt was introduced with ProShow version 5.
6.   Set both the Following and Follower layers to the same scale. If one is Fill Frame, the other should use Fill Frame. They both now have a common scale and reference point. Different scales between the follower and following layers will result in some different zoom results. I’ll call them “interesting” for lack of a better description. Depending on the layer aspects (ratio of one set of sides to the other), the scale mode can result in significant differences in the effective layer zoom. For instance, Fit to Safe Zone is a effectively a percent of the mode Fit to Frame.

Zoom Following with Pan Following Tutorial

MODIFIERS. Modifiers are an advanced feature of Photodex’s Proshow Producer (PSP). Their use is typically attributed to something for a master PSP user. However, that is not necessarily the case. Actually, simple modifiers require minimal PSP knowledge to use them. This tutorial was first posted on the ProShow Enthusiasts Forum back on 27 Nov 2009

Photodex’s documentation of modifiers is lacking. Effectively, modifiers are described at a top level. However, aside from an example or two, nothing in the modifiers manual provides any effective guidance to the potential user on how to use them. While Photodex describes modifiers as limited in what they can do, they have the potential to save some slideshow builder’s a considerable amount of time and effort (especially if they’re building an effect for use as a style in a later show). What I’ll present here is a quick example that you can easily expand upon for even more practical uses.

Knowledge of masks and keyframes is crucial to the effective use of modifiers.

MASKS.  A common use of a mask is to constrain an image to a certain size. This allows you to zoom and/or pan an image within the confines of that mask while not using any additional screen space. An example of why you might want to use this feature is when you want to fade one image away to reveal another. However, if the two photos are different sizes, the fade from one to the other can appear disconcerting. Also, you may only want part of one image to appear (as in the case of a landscape image masked to appear as a portrait image). There are various reasons why you would want to mask an image. Understanding masks is crucial to effectively using PSP.

An image that has been masked cannot directly use PSPs outline and shadow features. That is because the outline and shadow are typically clipped away by the mask. Instead, you have to build the outline or a shadow.

KEYFRAMES. Keyframes help you control the movement or appearance of an image/layer. Knowing keyframes is also crucial to take advantage of the power of PSP.

EXAMPLE DESCRIPTION. I’ll provide a relatively simple and practical example that demonstrates the use of modifers, masks, and keyframes. This tutorial will create a masked image with an outline. The mask layer changes position and size during the slidetime. The other 2 layers will follow the position and zoom of the mask layer. Those other two layers will only contain the default two keyframes.

This example assumes you have a working knowledge of PSP. Exact steps on how you use/access a particular feature is not presented. I’m assuming a transition time of 2s on either side of the slide.

Initial Setup
•    First, put your portrait image onto the slide. Scaling: Fill Frame; Zoom: 30%
– This is a typical setting for a 2:3 aspect image (many digital camera sensors have a 1.5 aspect).
•    Set the slide time to 5 seconds.
•    Double click on the slide to open the Slide Options Dialog
•    Next, add a solid white gradient layer. Resolution: 800 x 1200.
– I often use a gradient instead of a solid color layer because I may want to use multiple colors later. If you start out with solid color layer and then later find out you need colors for some reason (i.e., need a gradient layer), you will have to add a new layer and then duplicate keyframes and their locations/rotation/zoom/etc, and/or modifiers etc … it can result in lots of work!). [Update: I’ll have to give a little tutorial on this, but there’s a way to convert solid color layers to gradients or even to image layers! Neat. But, it’s outside the scope of this tutorial.]
– White allows use as an intensity (grayscale) or alpha (transparency) mask interchangeably.
•    Put this as layer 1. Zoom: 30%, Scale: Fill Frame
– Note that this makes the image and the mask have the same scale. Zoom following works best between layers that are scaled similarly. Dissimilarly scaled layers that use zoom following may result in unexpected/unwanted results (but it could be interesting!). In this case, the two layers (the portrait image and the image mask layer) are sized approximately the same.

Now, let’s start setting up the positioning. In this case, the image layer will follow wherever the mask goes.

Select the gradient layer
•    Now, select the Effects tab and click on the Motion Effects tab (v4); you don’t have to do this in version 5+.
•    Add keyframes.
–    Right click on the time line (the section where the timeline numbers are or the yellow bar). In the resulting dialog select “ Insert Multiple”
–    Put 5 into the resulting dialog and hit OK.
•    Set the time for each keyframe. Remember, this tutorial assumes a 2 second transition on either side of the 5 second slide.
KF1: 0s; KF2: 2.01s; KF3: 3.5s; KF4: 4s; KF5: 5s; KF6: 5.5s; KF7: 9s
•    Set the position for each keyframe:
– kf1:-20,20; kf2: -20,20; kf3: -20,5; kf4: 20, -20; kf5: 0,30; kf6: 0,0; kf7: 50,50
•    Set the Zoom for each keyframe
– kf1: 0,0; kf2: 50,50; kf3: 0,20; kf4: 40,0; kf5: 20,20; kf6: 90,90; kf7: 0,0.

Select layer 2 (image layer).
• Right click on pan-x box.
Select Add Modifier.
Apply to: All Keyframes;
Type of action to [+] Add to Modifier;
Variable Amount Based On: Pan X.
From: Layer 1.
Multiply By: 1.00.
Select OK

• Pan-Y box.
Select Add Modifier.
Apply to: All Keyframes;
Type of action to [+] Add to Modifier;
Variable Amount Based On: Pan Y.
From: Layer 1.
Multiply By: 1.00.
Select OK

• Zoom-X box.
Add modifier.
Variable Amount Based On: Zoom-X;
From: Layer 1;
Multiplied By: 1;

Add an action.
Set Type of Action to
[-] Subtract from Modifier;
Constant Amount: 100.• Zoom-Y box.
Add modifier.
Variable Amount Based On: Zoom-Y;
From: Layer 1;
Multiplied By: 1;

Add an action.
Set Type of Action to
[-] Subtract from Modifier;
Constant Amount: 100.

• Set Zoom-X and Zoom-Y values of each Layer 2 keyframe to Layer 1’s largest zoom value: 901, 2, 3

SET layer 1 as a grayscale mask.
–    Layer 1 (gradient) and layer 2 (image) are now a mask set.
–    Layer 1 is the masking layer and Layer 2 is the masked layer.

Add a border layer.
• Add a gradient layer.
• Give it a size of 800,1200 (again, this is for a 3:2 aspect image; use 900×1200 for a 4:3 image. This layer should be the same size as layer 1 for border purposes. I could have duplicated layer 1 and obtained all of that layers settings but that’s not the purpose of this tutorial).
• Set the color to white.
• Set the size “fill frame,”
• Set the zoom to 91% (1% larger than the largest zoom of layer 1).5
• Move this layer to the lowest layer, layer 3.

Add modifiers (apply to all keyframes) to layer 3
• Pan-X. Variable Amount Based On: Pan X; From: Layer 1.
• Pan-Y. Variable Amount Based On: Pan Y; From: Layer 1.
• Zoom-X. Variable Amount Based On: Zoom-X; From: Layer 1. Type of action: [-] Subtract from modifier; Constant Amount: 100.
• Zoom-Y. Variable Amount Based On: Zoom-X; From: Layer 1. Type of action: [-] Subtract from modifier; Constant Amount: 100.
• Go to Effects|Adjustment Effects. Set Blur to 40.

Note that this layer and layer 2 only have the default number of keyframes.

Play the slide and see what happens! Next, change the layer 1 settings of the pans and zooms and see what you get when you play the slide.

NOTES
1.    If the layer 1 maximum zoom is changed from 90 to some other value, you need to change the maximum zoom of the other layers that depend upon it for their zoom to the same value (if you want to zoom amounts to be the same). That is, if the largest zoom of layer 1 is 110, then set the zoom of the dependent layers to 110).
2.    If the value of the maximum zoom is over 200 the dependent layers may not zoom down to zero the same as the master layer.
3.     Zoom actions … when you follow the zoom of another layer, you’re using a value that appears to be interpreted as percent of a percent in the referencing/following layers’ zoom (unexpected zoom values are possible if you don’t provide a correction value). Adding the -100 action after the zoom reference to the master layer seems to create a correction that works well for most zoom values below a maximum zoom of 200 in the master/reference layer.
4.    Do not enter a rotation amount for any of these layers. For some reason, a rotation breaks the zoom “fix” I’ve discovered that enables a zoom follow.
5.    Size changes in Different Axis notes. Since the horizontal and vertical aspects of a show may have considerably different proportions, you can get the appearance of large differences in size. Since Photodex uses percent to change size, a 50% size in one direction may result in a larger or smaller actual size change in the other direction with the same 50% size change. So, if you want a size change that looks the same in each direction, you need to adjust it by the show’s aspect. For instance, if you want to change the X-Axis size from 90% to 91%, that represents a 1/90*100 = 1.11% increase. So, the corresponding Y-Axis change by the screen aspect. So, the increase would be 1.11(9/16) = 0.625%. That change would then be 90 + (90*0.625/100) = 90 + 0.56 = 90.56. So, a change from 90% to 91% in the horizontal requires a 90.56% setting for the vertical to keep the same effective width change.

As you can see, if you work with it, this example is rather simple. It consists of only 3 layers (a mask layer, an image layer, and a border layer). But, what I’ve provided is information that can easily be expanded to other layers or sets of layers. (NOTE: if you want to have a layer follow another layers’ location but be beside it, you can add an action of -1 that multiplies the pan-x value … so a pan-x of 20 becomes a pan-x of -20 for the referencing layer). So, if you decide to change the location and/or zoom of the master / referenced layer, that’s essentially the ONLY layer you may need to change! It’s not appropriate for all situations. But where it does, it can save you time and effort.

Good Luck!

Modifier-Based Zoom

You can change a layer’s zoom setting using a modifier. Why you would want to do change a layer’s zoom is subject to what you’re trying to do. One example might be that you are going to use an effect you created as part of a style. That style contains a rotation center change. Because of the way rotation center changes work, if a change is made to a layer’s size, aspect, or position, the rotation center changes. If you know how to do it, you can set up the style to recognize a zoom change for the primary image and have all of the secondary images change their size automatically and accordingly. A size change in this case might be necessitated by the fact that the main image size change was required to make it fit completely within a mask. If there are any smaller versions of the same image (which may be visible now or later as the slide is played), you can change them to fit their masks as well (and any associated rotation center changes) without having to manually change the settings for each layer.

The possibilities are limited by your imagination.

A modifier changes the existing zoom value by a percent that zoom. So, if the layer has a zoom value of 30, a constant modifier of 1 changes that zoom value by 1%. If the constant modifier is 20, the zoom value is changed by 20%. If you’re trying to increase a number by a certain percent then you’d use the first equation:

ZoomStart + ZoomStart(%ChangeModifier/100) = ZoomEnd, (eqn 1)
Where “%ChangeModifier” is a decimal number. ZoomStart is the layer’s initial zoom value. ZoomEnd is the zoom that you want the layer to end up at.

With this equation, you can check out what modifier values give you what final zoom when given a starting zoom. It’s helpful to realize that the modifier value is actually a number that represents a percent. That is, a modifier of 125 represents 125% which is actually a decimal value of 12.5. A modifier of 1 is 1% which is actually a decimal 0.01.

If you’re looking for the modifier value that you would get with a given start and end zoom, you’d use the following formula:

%ChangeModifier = (ZoomEnd – ZoomStart)100/ZoomStart (Eqn 2)

The reason I added the “100” value into the formulae is so that the final result would be the actual modifier value that you would use in your modifier action (remember, a modifier value is not just a number, its a Percent value). If you forget to convert the decimal number to the percent number and use that decimal value instead, you will NOT get what you expect (yes, it’s easy to do!). Hence, the inclusion of the 100 into the formula. This is particularly important if you put the actual formula in the modifier actions: +ZoomEnd – ZoomStart * 100 / ZoomStart (and yes, there are times when you may want to have the program calculate the values for you on the fly …)

If you wanted to, for example, create a thin border around your image you would want to increase the size of a single color gradient or solid color layer by a small amount and place it behind your image. In this case, assume our starting zoom is 65. If we only want a 0.5% increase our thin border calculation would be:

%Changemodifier = (65.5 – 65)100/65 = 0.7692, or 0.77 (modifiers only round to 2 decimal places).

If you wanted a thicker border of something like 5%, then we’d have

%Changemodifier = (70 – 65)100/65 = 7.692, or 7.69

UPDATE 111114

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When the layer’s zoom remains constant throughout the slide time, a constant value zoom box modifier changes the existing zoom value by the percent represented by the modifier. So, if the zoom is 100 and the modifier value is 20, the layer’s zoom is increased 20% to 120. That is, starting zoom is 100 and the ending zoom is 120, a difference of 20. That’s because 100 * 20/100 is 20. Or, if the starting zoom is 65 and the modifier is 60, the increase in zoom is calculated as follows: 65 * 60/100=39 (the difference between starting and ending zoom). So, the final zoom value is 65+39=104.

Things change a little when it comes to a slidetime that has varying zoom values. If a constant modifier is entered into the zoom box it effectively creates a difference value between the slide time’s largest zoom value and the percent of that value calculated by the modifier value. So, if the slide’s largest zoom value is 60 and a constant zoom modifier value of 75 is added, the ending modifier-adjusted zoom is now 105 and is calculated as follows: 60 + 60(0.75) = 60 + 45 = 105. The difference between 105 and 60 is 45. All other zoom values in the slide time are now increased by 45 as well. if there’s a zoom of 20 in the slide’s timeline, its new zoom value is 20+45=65. If there’s a zoom of 40, it’s zoom becomes 85.

© 2011, Dale Fenimore 111101