Difference between revisions of "AGI/Specifications/Internals"
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* 256 8 bit variables, numbered 0--255 (Var); | * 256 8 bit variables, numbered 0--255 (Var); | ||
* 256 flags, numbered 0--255 (Flag); | * 256 flags, numbered 0--255 (Flag); | ||
* a number of objects controlled by the interpreter, one of which (the object 0) may be controlled by the player | * a number of objects controlled by the interpreter, one of which (the object 0, ego) may be controlled by the player; | ||
* a number of inventory items; | * a number of inventory items; | ||
* 12 40-character string variables (string). | * 12 40-character string variables (string). | ||
Variables 0 to 26 and flags 0 to 16 are reserved for internal use. | |||
All others are available to be used by the programmer. The variables | |||
and flags are global to all scripts. Each variable, flag, object, | |||
string, word, message, etc. has a unique ID number, and numbering of | |||
different data types is independent (for example, there can be a | |||
variable number 5, a string number 5, and a flag number 5). | |||
==Resources - the fundamental AGI data type== | ==Resources - the fundamental AGI data type== | ||
When we develop a game, we invent the plot, create objects of the game, animate them, develop scenery and a dictionary of words for the dialogue with the player. To describe all of these, resources are used. To create some of the resources, we use utilities included with AGDS, in this case the input of the utilities are resources. (Sounds weird, but that's literally what it says. --VB) | When we develop a game, we invent the plot, create objects of the game, animate them, develop scenery and a dictionary of words for the dialogue with the player. To describe all of these, resources are used. To create some of the resources, we use utilities included with AGDS, in this case the input of the utilities are resources. ''(Sounds weird, but that's literally what it says. --VB)'' | ||
Here is a list of all the existing resources. Resources are used to represent: | Here is a list of all the existing resources. Resources are used to represent: | ||
* | * color background drawings (PICTURE resource); | ||
* | * color animated images (VIEW resource); | ||
* sound effects (music, noise) (SOUND resource); | * sound effects (music, noise) (SOUND resource); | ||
* inventory items and other objects (OBJECT resource); | * inventory items and other objects (OBJECT resource); | ||
Line 37: | Line 36: | ||
Let us now consider the interpreter algorithm and the purpose of reserved variables and flags. | Let us now consider the interpreter algorithm and the purpose of reserved variables and flags. | ||
When interpreter | When the interpreter is started it loads script 0, not unloading it | ||
until the end of the game execution. This script is then executed | |||
over and over, and is responsible for sequencing all other scripts | |||
according to the current room. Since script 0 is executed in all rooms, | |||
it's common to handle actions that can happen in different places | |||
directly on script 0, or in a script called from script 0 but not | |||
associated to a specific room number. | |||
In each cycle the interpreter performs the following basic actions: | In each cycle the interpreter performs the following basic actions: | ||
# time delay; | |||
# clear the keyboard buffer; | |||
# poll the keyboard and the joystick; | |||
# analyses some of the reserved variables and flags (see block diagram); | |||
# for all controllable objects for which '''animate.obj''', '''start.update''' and '''draw''' commands were issued, directions of motion are recalculated; | |||
# LOGIC resource 0 is executed, as well as any logics it calls -- which, in turn, can call other logics. Depending on the state of variables and flags analyzed at step 4 the number of commands interpreted at stage 4 commands varies from one iteration of the cycle to another depending, for example, on a number of LOGIC resources to be called in the current situation; | |||
# test if the '''new.room''' command has been issued; | |||
then the cycle is repeated. | then the cycle is repeated. | ||
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<span id="VariableTypes"></span> | <span id="VariableTypes"></span> | ||
= | =AGI data types= | ||
Written by Lance Ewing, with additions/modifications by Claudio Matsuoka (Last updated: 22 May 1999). | Written by Lance Ewing, with additions/modifications by Claudio Matsuoka (Last updated: 22 May 1999). | ||
Line 154: | Line 159: | ||
==Variable== | ==Variable== | ||
This is an unsigned eight-bit | This is an unsigned eight-bit data type equivalent of a byte, or | ||
unsigned char. Its values range from 0 to 255. There are 256 variables, | |||
being the first 27 (listed in [[AGI/Specifications/Internals#tab-reserved-variables | Table 3-1]]) | |||
reserved for internal use by the interprter. On interpreter startup, all | |||
variables are set to 0. | |||
<span id="tab-reserved-variables"></span> | |||
{| border="1" cellspacing="0" cellpadding="5" | |||
|+ '''Table 3-1. Reserved variables''' | |||
|- | |||
! Variable | |||
! Description | |||
|- | |||
| 0 | |||
| Current room number, initially 0 | |||
|- | |||
| 1 | |||
| Previous room number | |||
|- | |||
| 2 | |||
| Code of the border touched by ego, according to [[AGI/Specifications/Internals#tab-border-code | Table 3-2]] | |||
|- | |||
| 3 | |||
| Current score | |||
|- | |||
| 4 | |||
| Number of the object, if not ego, that touched the border | |||
|- | |||
| 5 | |||
| Code of border touched by the object in '''v4''' | |||
|- | |||
| 6 | |||
| Direction of ego's motion [[AGI/Specifications/Internals#fig-directions | Figure 3-2]] | |||
|- | |||
| 7 | |||
| Maximum score | |||
|- | |||
| 8 | |||
| Number of free 256-byte pages of memory | |||
|- | |||
| 9 | |||
| Number of the word in the user message that was not found in the dictionary | |||
|- | |||
| 10 | |||
| Interpreter cycle time in 20ths of second | |||
|- | |||
| 11 | |||
| Seconds (in the internal clock) | |||
|- | |||
| 12 | |||
| Minutes (in the internal clock) | |||
|- | |||
| 13 | |||
| Hours (in the internal clock) | |||
|- | |||
| 14 | |||
| Days (in the internal clock) | |||
|- | |||
| 15 | |||
| Joystick sensitivity (if '''f8''' == 1) | |||
|- | |||
| 16 | |||
| View resource associated with ego | |||
|- | |||
| 17 | |||
| Interpreter error code | |||
|- | |||
| 18 | |||
| Error code parameter | |||
|- | |||
| 19 | |||
| Key pressed on the keyboard | |||
|- | |||
| 20 | |||
| Computer type (see [[AGI/Specifications/Internals#tab-computer-types | Table 3-3]]) | |||
|- | |||
| 21 | |||
| Message window timer (if '''f15''' == 0, the window is automatically closed after 0.5 * '''v21''' seconds) | |||
|- | |||
| 22 | |||
| Sound type (see [[AGI/Specifications/Internals#tab-sound-types | Table 3-4]]) | |||
|- | |||
| 23 | |||
| Sound volume (0 to 15) | |||
|- | |||
| 24 | |||
| Input buffer size (default 41) | |||
|- | |||
| 25 | |||
| Number of inventory item selected using the '''status''' command or 255 if none | |||
|- | |||
| 26 | |||
| Monitor type (see [[AGI/Specifications/Internals#tab-monitor-types | Table 3-5]]) | |||
|} | |||
<span id="tab-border-code"></span> | |||
{| border="1" cellspacing="0" cellpadding="5" | |||
|+ '''Table 3-2. Border codes''' | |||
|- | |||
! Code | |||
! Description | |||
|- | |||
| 0 | |||
| Touched nothing | |||
|- | |||
| 1 | |||
| Top edge of the screen or the horizon | |||
|- | |||
| 2 | |||
| Right edge of the screen | |||
|- | |||
| 3 | |||
| Bottom edge of the screen | |||
|- | |||
| 4 | |||
| Left edge of the screen | |||
|} | |||
<span id="fig-directions"></span> | |||
'''Figure 3-2. Ego's directions''' | |||
1 | |||
8 | 2 | |||
\ | / | |||
\ | / | |||
7 ------------- 3 0 - the object | |||
/ | \ is motionless | |||
/ | \ | |||
6 | 4 | |||
5 | |||
<span id="tab-computer-types"></span> | |||
{| border="1" cellspacing="0" cellpadding="5" | |||
|+ '''Table 3-3. Computer Types''' | |||
|- | |||
! Code | |||
! Description | |||
|- | |||
| 0 | |||
| IBM-PC | |||
|- | |||
| 4 | |||
| Atari ST | |||
|- | |||
| 5 | |||
| Amiga | |||
|- | |||
| 7 | |||
| Apple IIGS | |||
|- | |||
| 20 | |||
| Amiga's Space Quest I (Version 1.2, AGI 2.082) | |||
|} | |||
<span id="tab-sound-types"></span> | |||
{| border="1" cellspacing="0" cellpadding="5" | |||
|+ '''Table 3-4. Sound Types''' | |||
|- | |||
! Code | |||
! Description | |||
|- | |||
| 0 | |||
| IBM-PC | |||
|- | |||
| 3 | |||
| Tandy (This value is also used by the Amiga AGI and Apple IIGS AGI) | |||
|- | |||
| 8 | |||
| Apple IIGS's Gold Rush! (Version 1.0M 1989-02-28 (CE), AGI 3.003) uses value 8 | |||
|} | |||
<span id="tab-monitor-types"></span> | |||
{| border="1" cellspacing="0" cellpadding="5" | |||
|+ '''Table 3-5. Monitor Types''' | |||
|- | |||
! Code | |||
! Description | |||
|- | |||
| 0 | |||
| CGA (This value is also used by the Apple IIGS AGI) | |||
|- | |||
| 2 | |||
| Hercules | |||
|- | |||
| 3 | |||
| EGA (This value is also used by the Amiga AGI) | |||
|- | |||
| 0 | |||
| Amiga's King's Quest I (Version 1.0U, AGI 2.082) and Space Quest I (Version 1.2, AGI 2.082) | |||
|- | |||
| 0 | |||
| Amiga's Space Quest I (Version 1.2, AGI 2.082) | |||
|} | |||
==Flag== | ==Flag== | ||
Flags are | Flags are 1-bit boolean data types whose value can be either 1 or 0 | ||
(true or false). There are 256 flags numbered from 0 to 255. The | |||
first 16 flags (listed in [[AGI/Specifications/Internals#tab-reserved-flags | Table 3-6]] are | |||
reserved by the interpreter for internal use. On the interpreter startup, | |||
all flags are set to 0. | |||
<span id="reserved-flags"></span> | |||
{| border="1" cellspacing="0" cellpadding="5" | |||
|+ '''Table 3-6. Reserved flags''' | |||
|- | |||
! Flag | |||
! Description | |||
|- | |||
| 0 | |||
| Ego's base line is completely on water | |||
|- | |||
| 1 | |||
| Ego is completely obscured by another object | |||
|- | |||
| 2 | |||
| The player has entered a command | |||
|- | |||
| 3 | |||
| Ego touched a trigger line | |||
|- | |||
| 4 | |||
| '''said''' accepted user input | |||
|- | |||
| 5 | |||
| Room script executed for the first time | |||
|- | |||
| 6 | |||
| '''restart.game''' has been executed | |||
|- | |||
| 7 | |||
| Writing to the script buffer is blocked | |||
|- | |||
| 8 | |||
| If set, '''v15''' determines joystick sensitivity | |||
|- | |||
| 9 | |||
| Sound is enabled | |||
|- | |||
| 10 | |||
| Built-in debugger is enabled | |||
|- | |||
| 11 | |||
| Logic 0 is executed for the first time | |||
|- | |||
| 12 | |||
| '''restore.game''' has been executed | |||
|- | |||
| 13 | |||
| '''status''' to select items | |||
|- | |||
| 14 | |||
| Enable menu | |||
|- | |||
| 15 | |||
| Enable non-blocking windows. If set, the message window is left on the screen, otherwise the message window is closed when '''ENTER''' or '''ESC''' are pressed. If '''v21''' is not zero, the window is closed automatically after '''v21''' * 500 milliseconds. | |||
|- | |||
| 16 | |||
| (Related to game restart) | |||
|} | |||
==String== | ==String== | ||
Strings are 40 characters long, including the zero terminator. | |||
String number zero is the input prompt (e.g. <tt>">"</tt> or <tt>"]"</tt>). | |||
The majority of AGI interpreters have enough room for exactly 24 strings: | |||
AGI interpreter versions 2.089, 2.411, 3.002.107 and 3.002.149 have room | |||
for 12 strings, the remaining versions have room for 24 strings. | |||
Whether the versions that have enough space for 24 strings do infact support 24 strings is not known | Whether the versions that have enough space for 24 strings do infact | ||
support 24 strings is not known. | |||
==Word== | ==Word== | ||
Words are the words that the user types in. An input sentence is composed of a number of words. The important words (e.g. for the sentence "look at the tree", "look" and "tree" are important) are assigned to the words variables corresponding to their place in the sentence once unimportant words and punctuation has been taken out. For example, in the earlier example word(1) would be "look" and word(2) would be "tree". Words can be converted to strings. | Words are the words that the user types in. An input sentence is composed of a number of words. The important words (e.g. for the sentence "look at the tree", "look" and "tree" are important) are assigned to the words variables corresponding to their place in the sentence once unimportant words and punctuation has been taken out. For example, in the earlier example word(1) would be "look" and word(2) would be "tree". Words can be converted to strings. | ||
==Inventory Item== | ==Inventory Item== | ||
There are a number of AGI commands that refer to inventory items (e.g. get(), drop()). One of the arguments to these commands will represent an inventory item number. In the original LOGIC source text, the programmer would have written things like get(dagger) but the interpreter knows them only as an index into the OBJECT table. | There are a number of AGI commands that refer to inventory items (e.g. '''get()''', '''drop()'''). One of the arguments to these commands will represent an inventory item number. In the original LOGIC source text, the programmer would have written things like '''get(dagger)''' but the interpreter knows them only as an index into the OBJECT table. | ||
==Object== | ==Object== | ||
Objects are instances of View resources in use in a given room, | |||
and essentially an entry in the view table. Many objects can use | |||
the same view resource for its appearance (e.g. in KQ1 with the | |||
crocodile filled moat). View table entries have positional and | |||
sequential attributes that only make sense for a on-screen | |||
There can be a bit of confusion between this type and the inventory item because of the name of the '''object''' file. The '''object''' file has almost nothing to do with what the interpreter generally calls objects, such as '''move.obj''', | |||
'''animate.obj''', '''set.view''', '''set.cel''', '''set.loop''' and '''draw'''. | |||
In fact the interpreter calls its usage of the VIEW resource "objects". An object is one usage of a VIEW resource. It is essentially an entry in the object table (or VIEW table/VIEW list). Many objects can use the same VIEW resource for its appearance which can be seen in KQ1 and BC with the crocodile filled moats. | In fact the interpreter calls its usage of the VIEW resource "objects". An object is one usage of a VIEW resource. It is essentially an entry in the object table (or VIEW table/VIEW list). Many objects can use the same VIEW resource for its appearance which can be seen in KQ1 and BC with the crocodile filled moats. | ||
When an AGI command has an object as a parameter to it, the value of the parameter is an index number into a table of objects that the interpreter is currently controlling. | |||
==Message== | ==Message== | ||
Line 195: | Line 471: | ||
Example: | Example: | ||
< | |||
<syntax type="C++"> | |||
print ("Message 34 in logic.0 is %g34."); | print ("Message 34 in logic.0 is %g34."); | ||
</ | </syntax> | ||
Therefore messages in logic.0 can be displayed by any LOGIC in this way. | Therefore messages in logic.0 can be displayed by any LOGIC in this way. | ||
<span id="Memory"></span> | <span id="Memory"></span> | ||
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Written by Lance Ewing with additions/modifications by Peter Kelly and Anders M. Olsson (Last updated: 3 March 1998). | Written by Lance Ewing with additions/modifications by Peter Kelly and Anders M. Olsson (Last updated: 3 March 1998). | ||
Since the data formats for the different AGI interpreter versions are mostly identical or easily convertible to each other, we should expect to be able to run one games data with anothers interpreter. This sounds like a reasonable assumption but when you try it, the interpreter rejects the new data. The reason behind this is game IDs. | Since the data formats for the different AGI interpreter versions are mostly identical or easily convertible to each other, we should expect to be able to run one games data with anothers interpreter. This sounds like a reasonable assumption but when you try it, the interpreter rejects the new data. The reason behind this is ''game IDs''. | ||
Every interpreter has got a game ID coded into it and it expects to be given data for that game. Somewhere in the initialization code for each game is a '''set.game.id()'''. When this command is encountered, the interpreter checks the given game ID and compares it with its own. If they are not the same, it quits immediately. Presumably the reason for this was to stop people running games with the wrong interpter version, which can cause problems (unless you know what you're doing). | |||
==How do we get around it?== | ==How do we get around it?== | ||
Line 327: | Line 526: | ||
* Leisure Suit Larry: 'L' 'L' 'L' 'L' 'L' 0x00 'X' | * Leisure Suit Larry: 'L' 'L' 'L' 'L' 'L' 0x00 'X' | ||
The game ID itself is the null terminated string that ends at the 00h. The text that follows it is of no significance, it is simply to fill in the gap although it is useful when searching for the game ID because, as you can see, this text is always "eIDX" | The game ID itself is the null terminated string that ends at the 00h. The text that follows it is of no significance, it is simply to fill in the gap although it is useful when searching for the game ID because, as you can see, this text is always "<tt>eIDX</tt>" (presubably from "gameIDX" before being overwritten by the actual ID) or a suffix of it (i.e. "<tt>IDX</tt>", "<tt>DX</tt>", or "<tt>X</tt>"). For most games, the game ID is two or three characters which means that you will be able to rely on the "IDX" string being there for these games. | ||
===Method 2: The easy way=== | ===Method 2: The easy way=== | ||
Using the above method will allow you to run a different game with an interpreter, but you will still only be able to run the game that has the specified game ID. There is another way around this, which involves patching the logic source. This can be accomplished using a program to edit the logics such as AGI Studio (for the Windows platform). What you can usually do is look at the top part of logic 0 and find out what the initialization logic is (usually around 90--100 -- you might have to look at a few logics before you find it). Then simply go to that logic, find the set.game.id command, remove it, and recompile the logic. Since the command is not used, the interpreter will not try and compare it with it's own ID, and it won't quit. | Using the above method will allow you to run a different game with an interpreter, but you will still only be able to run the game that has the specified game ID. There is another way around this, which involves patching the logic source. This can be accomplished using a program to edit the logics such as AGI Studio (for the Windows platform). What you can usually do is look at the top part of logic 0 and find out what the initialization logic is (usually around 90--100 -- you might have to look at a few logics before you find it). Then simply go to that logic, find the '''set.game.id''' command, remove it, and recompile the logic. Since the command is not used, the interpreter will not try and compare it with it's own ID, and it won't quit. | ||
The only drawback to using this method is that the saved games no longer have the game ID in their name (so, for example, a savegame would be called sg.1 instead of kq2sg.1), but this is not a major hassle. | The only drawback to using this method is that the saved games no longer have the game ID in their name (so, for example, a savegame would be called '''sg.1''' instead of '''kq2sg.1'''), but this is not a major hassle. | ||
==Why can't I find the game ID?== | ==Why can't I find the game ID?== | ||
This is because a lot of the AGI files themselves are encrypted. See section Encrypted AGI | This is because a lot of the AGI files themselves are encrypted. See section [[AGI/Specifications/Internals#Encryption | Encrypted AGI Data]] for further information. | ||
==Possibilities== | ==Possibilities== | ||
Line 350: | Line 549: | ||
Written by Lance Ewing, with additions/modifications by Peter Kelly and Anders M. Olsson (Last updated: 3 March 1998). | Written by Lance Ewing, with additions/modifications by Peter Kelly and Anders M. Olsson (Last updated: 3 March 1998). | ||
Many AGI files are encrypted. This was probably to give some protection to their product which was quite unique at the time. You can tell the difference between an encrypted AGI file and a non-encrypted AGI file by the first two characters. If they are "MZ" (the MS-DOS executable file header), then it not encrypted. | Many AGI files are encrypted. This was probably to give some protection to their product which was quite unique at the time. <!-- Footnote --> ''(You can tell the difference between an encrypted AGI file and a non-encrypted AGI file by the first two characters. If they are "MZ" (the MS-DOS executable file header), then it not encrypted.)'' The AGI file is decrypted by the loader program. This is usually called '''sierra.com''' in MS-DOS but can also be named after the game (eg. '''kq1.com'''). In AGI version 1, the loader was called '''load'''. If an AGI game doesn't have a loader, then it shouldn't be encrypted. If an AGI game does have a loader, it does not necessarily mean that the AGI file is encrypted. | ||
The AGI file is decrypted by the loader program. This is usually called sierra.com in MS-DOS but can also be named after the game (eg. kq1.com). In AGI version 1, the loader was called load. If an AGI game doesn't have a loader, then it shouldn't be encrypted. If an AGI game does have a loader, it does not necessarily mean that the AGI file is encrypted | |||
The loader | The decryption key was not originally embedded in the loader file. If you find a game where the key is embedded in the loader, it is because that game has had copy protection removed. There are several utilities to do that. Anders M Olsson's '''SUP''' is one of them. The CD re-releases have been unprotected by Sierra in exactly the same fashion. | ||
An interesting note is that when a copy-protected Sierra game asked for the original disk one, you could insert disk one from any protected Sierra game. The contents of track 6 were always the same. | The loader would read the decryption key from track 6 of the disk, load the executable file, decrypt and run it. Track 6 had a special format that was supposedly impossible to exactly reproduce by a standard PC floppy disk controller. An interesting note is that when a copy-protected Sierra game asked for the original disk one, you could insert disk one from ''any'' protected Sierra game. The contents of track 6 were always the same. | ||
But even though track 6 was the same, all games didn't use exactly the same encryption key. The two bytes in the loader, immediately following the string "keyOfs", gave an offset on track 6 from where the key would be loaded. | But even though track 6 was the same, all games didn't use exactly the same encryption key. The two bytes in the loader, immediately following the string "<tt>keyOfs</tt>", gave an offset on track 6 from where the key would be loaded. | ||
So, if the decryption string consists of 128 `k' characters, it can actually mean one of two things: Either the AGI file is not encrypted, or the game is still copy-protected. | So, if the decryption string consists of 128 `k' characters, it can actually mean one of two things: Either the AGI file is not encrypted, or the game is still copy-protected. | ||
Line 379: | Line 574: | ||
The start of a loader will look something like this: | The start of a loader will look something like this: | ||
LOADER v3.0 (c) Copyright Sierra On-Line, Inc. 1987 keyOfs | |||
There are two bytes in between the "keyOfs" string and the start of the description string. If the decryption key consists of 128 `k' characters, then the AGI file is not encrypted (or the game is still copy-protected). If it consists of a whole lot of random looking characters, then it is encrypted. | There are two bytes in between the "<tt>keyOfs</tt>" string and the start of the description string. If the decryption key consists of 128 `k' characters, then the AGI file is not encrypted (or the game is still copy-protected). If it consists of a whole lot of random looking characters, then it is encrypted. | ||
As an aside, the decryption string is followed immediately by the stack and is usually marked with a whole string of `s' characters. Thus we have `k' for key and `s' for stack. The stack is usually 256 bytes long. | As an aside, the decryption string is followed immediately by the stack and is usually marked with a whole string of `s' characters. Thus we have `k' for key and `s' for stack. The stack is usually 256 bytes long. | ||
==Decrypting the AGI file== | ==Decrypting the AGI file== | ||
Line 393: | Line 589: | ||
From the AGDS documentation, translated by Vassili Bykov (Last update: 31 August 1998). | From the AGDS documentation, translated by Vassili Bykov (Last update: 31 August 1998). | ||
Note: This section is an excerpt from the description of the said command from section Reference of LOGIC commands. | Note: This section is an excerpt from the description of the '''said''' command from section [[AGI/Specifications/Logic#CommandRef | Reference of LOGIC commands]]. | ||
Here is how the input is matched. After the player types a message and presses ENTER, the input line is processed by the interpreter in the following way: | Here is how the input is matched. After the player types a message and presses '''ENTER''', the input line is processed by the interpreter in the following way: | ||
# The interpreter removes all punctuation marks. | # The interpreter removes all punctuation marks. | ||
Line 405: | Line 601: | ||
* The Interpreter removes from the sequence of codes all zeros (that means all vocabulary words with zero codes are ignored). | * The Interpreter removes from the sequence of codes all zeros (that means all vocabulary words with zero codes are ignored). | ||
* f2 (the user has entered an input line) is set to 1 | * '''f2''' (the user has entered an input line) is set to 1 | ||
* f4 (said command accepted the user input) is set to 0. | * '''f4''' ('''said''' command accepted the user input) is set to 0. | ||
If the sequence of code produced by the interpreter is V(1), V(2),...V(m), the test is performed as follows: | |||
<pre> | <pre> | ||
Line 427: | Line 617: | ||
Otherwise W(i) should be equal to V(i). | Otherwise W(i) should be equal to V(i). | ||
If all elements match, f4 (said accepted the user input) is set to 1 and the command returns TRUE. Otherwise, FALSE is returned. | If all elements match, '''f4''' ('''said''' accepted the user input) is set to 1 and the command returns TRUE. Otherwise, FALSE is returned. | ||
<span id="InterpreterVersions"></span> | <span id="InterpreterVersions"></span> | ||
Line 435: | Line 625: | ||
==Sorted by Game== | ==Sorted by Game== | ||
< | Known Sierra AGI versions are listed in [[AGI/Specifications/Internals#tab-agi-games | AGI games and interpreter versions table]]. There are a number of different versions of the AGI interpeter but | ||
generally the data formats are the same or can be converted | |||
between each other. [[AGI/Specifications/Internals#tab-agi-games | AGI interpreter versions and features table]] compares the | |||
number of commands and other features in these interpreter versions. | |||
<span id="tab-agi-games"></span> | |||
{| border="1" cellspacing="0" cellpadding="5" | |||
|+ '''AGI games and interpreter versions''' | |||
|- | |||
! Game | |||
! Version | |||
! Int. version | |||
! Date</thead><tbody> | |||
|- | |||
| The Black Cauldron | |||
| 2.00 | |||
| 2.439 | |||
| 14 Jun 1987 | |||
|- | |||
| Gold Rush! | |||
| 2.01 | |||
| 3.002.149 | |||
| 22 Dec 1988 | |||
|- | |||
| King's Quest I | |||
| 1.0U | |||
| 2.272 | |||
| Unknown | |||
|- | |||
| King's Quest I | |||
| 2.0F | |||
| 2.425 | |||
| 1987 | |||
|- | |||
| King's Quest I | |||
| 2.0F | |||
| 2.917 | |||
| Unknown | |||
|- | |||
| King's Quest II | |||
| 2.1 | |||
| 2.411 | |||
| Unknown | |||
|- | |||
| King's Quest II | |||
| 2.2 | |||
| 2.426 | |||
| Unknown | |||
|- | |||
| King's Quest II | |||
| 2.2 | |||
| 2.917 | |||
| 1987 | |||
|- | |||
| King's Quest III | |||
| 1.01 | |||
| 2.272 | |||
| 8 Nov 1986 | |||
|- | |||
| King's Quest III | |||
| 2.00 | |||
| 2.435 | |||
| 25 May 1987 | |||
|- | |||
| King's Quest III | |||
| 2.14 | |||
| 2.936 | |||
| 15 Mar 1988 | |||
|- | |||
| King's Quest IV | |||
| 2.0 | |||
| 3.002.086 | |||
| 27 Jul 1988 | |||
|- | |||
| King's Quest IV demo | |||
| ? | |||
| 3.002.102 | |||
| Unknown | |||
|- | |||
| Leisure Suit Larry | |||
| 1.00 | |||
| 2.440 | |||
| 1 Jun 1987 | |||
|- | |||
| Mixed-Up Mother Goose | |||
| ? | |||
| 2.915 | |||
| Unknown | |||
|- | |||
| Man Hunter: New York | |||
| 1.22 | |||
| 3.002.102 | |||
| 30 Aug 1988 | |||
|- | |||
| Man Hunter: New York | |||
| 1.22 | |||
| 3.002.107 | |||
| 31 Aug 1988 | |||
|- | |||
| Man Hunter: San Francisco | |||
| 3.02B | |||
| 3.002.149 | |||
| 26 Jul 1989 | |||
|- | |||
| Man Hunter: San Francisco | |||
| 3.03 | |||
| 3.002.149 | |||
| 17 Aug 1989 | |||
|- | |||
| Police Quest I | |||
| 2.0G | |||
| 2.917 | |||
| 3 Dec 1987 | |||
|- | |||
| Space Quest I | |||
| 1.0X | |||
| 2.089 | |||
| Unknown | |||
|- | |||
| Space Quest I | |||
| 2.2 | |||
| 2.426 | |||
| Unknown | |||
|- | |||
| Space Quest I | |||
| 2.2 | |||
| 2.917 | |||
| 1987 | |||
|- | |||
| Space Quest II | |||
| 2.0C | |||
| 2.915 | |||
| 1987 | |||
|- | |||
| Space Quest II | |||
| 2.0C | |||
| 2.917 | |||
| Unknown | |||
|- | |||
| Space Quest II | |||
| 2.0D | |||
| 2.936 | |||
| Unknown | |||
|- | |||
| Space Quest II | |||
| 2.0F | |||
| 2.936 | |||
| Unknown | |||
|- | |||
| Christmas Card | |||
| ? | |||
| 2.272 | |||
| Unknown | |||
|} | |||
==Sorted by Int. Ver.== | ==Sorted by Int. Ver.== | ||
< | |||
<span id="tab-agi-versions"></span> | |||
{| border="1" cellspacing="0" cellpadding="5" | |||
|+ '''AGI interpreter versions and features''' | |||
|- | |||
! AGI version | |||
! Int. size | |||
! Agidata size | |||
! Commands | |||
! Encrypted objects | |||
! LZW | |||
|- | |||
| 2.089 | |||
| 34305 | |||
| 6656 | |||
| 155 | |||
| No | |||
| No | |||
|- | |||
| 2.272 | |||
| 34816 | |||
| 6656 | |||
| 161 | |||
| No | |||
| No | |||
|- | |||
| 2.411 | |||
| 38400 | |||
| 7680 | |||
| 169 | |||
| Yes | |||
| No | |||
|- | |||
| 2.435 | |||
| 38400 | |||
| 7680 | |||
| 169 | |||
| Yes | |||
| No | |||
|- | |||
| 2.439 | |||
| 38400 | |||
| 7680 | |||
| 169 | |||
| Yes | |||
| No | |||
|- | |||
| 2.440 | |||
| 38400 | |||
| 7680 | |||
| 169 | |||
| Yes | |||
| No | |||
|- | |||
| 2.915 | |||
| 39424 | |||
| 8192 | |||
| 173 | |||
| Yes | |||
| No | |||
|- | |||
| 2.917 | |||
| 39424 | |||
| 8192 | |||
| 173 | |||
| Yes | |||
| No | |||
|- | |||
| 2.936 | |||
| 39424 | |||
| 8192 | |||
| 175 | |||
| Yes | |||
| No | |||
|- | |||
| 3.002.086 | |||
| 40866 | |||
| 8064 | |||
| 177 | |||
| Yes | |||
| Yes | |||
|- | |||
| 3.002.098 | |||
| 40898 | |||
| 8080 | |||
| 181 | |||
| Yes | |||
| Yes | |||
|- | |||
| 3.002.102 | |||
| 40898 | |||
| 8080 | |||
| 181 | |||
| Yes | |||
| Yes | |||
|- | |||
| 3.002.107 | |||
| 40962 | |||
| 8080 | |||
| 181 | |||
| Yes | |||
| Yes | |||
|- | |||
| 3.002.149 | |||
| 40520 | |||
| 7488 | |||
| 181 | |||
| Yes | |||
| Yes | |||
|} | |||
<span id="VersionDifferences"></span> | <span id="VersionDifferences"></span> | ||
Line 517: | Line 900: | ||
There are a number of different versions of the AGI interpeter but generally the data formats are the same or can easy be converted between each other. The following table is a list of AGI interpreter versions that I know of: | There are a number of different versions of the AGI interpeter but generally the data formats are the same or can easy be converted between each other. The following table is a list of AGI interpreter versions that I know of: | ||
{| border="1" cellspacing="0" cellpadding="5 | {| border="1" cellspacing="0" cellpadding="5" | ||
!AGI Version | !AGI Version | ||
!Interp Size | !Interp Size | ||
Line 630: | Line 1,013: | ||
* Firstly, as the interpreter version increased, the number of AGI commands supported increased with it. The last eleven we do not know the names of. | * Firstly, as the interpreter version increased, the number of AGI commands supported increased with it. The last eleven we do not know the names of. | ||
* There are two main AGI versions: AGI v2 and AGI v3. | * There are two main AGI versions: AGI v2 and AGI v3. | ||
* The early AGI v2 games did not encrypt the object file with the "Avis Durgan" string. | * The early AGI v2 games did not encrypt the object file with the "<tt>Avis Durgan</tt>" string. | ||
* AGI v3 games use adaptive LZW to compress their LOGIC, VIEW, and SOUND files. | * AGI v3 games use adaptive LZW to compress their LOGIC, VIEW, and SOUND files. | ||
Line 637: | Line 1,020: | ||
There are four commands that have changed the number of arguments that are passed to them. All this information is based on observations made of the above interpreter versions. | There are four commands that have changed the number of arguments that are passed to them. All this information is based on observations made of the above interpreter versions. | ||
* The quit command had no arguments for version 2.089 whereas all the others above have one argument. | * The '''quit''' command had no arguments for version 2.089 whereas all the others above have one argument. | ||
* The print.at and print.at.v commands had only three arguments for versions 2.089--2.400 and four for the other versions. | * The '''print.at''' and '''print.at.v''' commands had only three arguments for versions 2.089--2.400 and four for the other versions. | ||
* Unknown command number 176 had one argument for version 3.002.086 but later versions had no arguments for this command. | * Unknown command number 176 had one argument for version 3.002.086 but later versions had no arguments for this command. | ||
Latest revision as of 02:56, 23 January 2011
How the interpreter works
From the AGDS documentation, translated by Vassili Bykov (Last update: 27 January 1998).
The AGI interpreter contains:
- 256 8 bit variables, numbered 0--255 (Var);
- 256 flags, numbered 0--255 (Flag);
- a number of objects controlled by the interpreter, one of which (the object 0, ego) may be controlled by the player;
- a number of inventory items;
- 12 40-character string variables (string).
Variables 0 to 26 and flags 0 to 16 are reserved for internal use. All others are available to be used by the programmer. The variables and flags are global to all scripts. Each variable, flag, object, string, word, message, etc. has a unique ID number, and numbering of different data types is independent (for example, there can be a variable number 5, a string number 5, and a flag number 5).
Resources - the fundamental AGI data type
When we develop a game, we invent the plot, create objects of the game, animate them, develop scenery and a dictionary of words for the dialogue with the player. To describe all of these, resources are used. To create some of the resources, we use utilities included with AGDS, in this case the input of the utilities are resources. (Sounds weird, but that's literally what it says. --VB)
Here is a list of all the existing resources. Resources are used to represent:
- color background drawings (PICTURE resource);
- color animated images (VIEW resource);
- sound effects (music, noise) (SOUND resource);
- inventory items and other objects (OBJECT resource);
- system dictionary for communicating with the user (WORD resource);
- programs in internal AGI programming language (LOGIC resource).
General principles of the interpreter operation
Let us now consider the interpreter algorithm and the purpose of reserved variables and flags.
When the interpreter is started it loads script 0, not unloading it until the end of the game execution. This script is then executed over and over, and is responsible for sequencing all other scripts according to the current room. Since script 0 is executed in all rooms, it's common to handle actions that can happen in different places directly on script 0, or in a script called from script 0 but not associated to a specific room number.
In each cycle the interpreter performs the following basic actions:
- time delay;
- clear the keyboard buffer;
- poll the keyboard and the joystick;
- analyses some of the reserved variables and flags (see block diagram);
- for all controllable objects for which animate.obj, start.update and draw commands were issued, directions of motion are recalculated;
- LOGIC resource 0 is executed, as well as any logics it calls -- which, in turn, can call other logics. Depending on the state of variables and flags analyzed at step 4 the number of commands interpreted at stage 4 commands varies from one iteration of the cycle to another depending, for example, on a number of LOGIC resources to be called in the current situation;
- test if the new.room command has been issued;
then the cycle is repeated.
All logics (programs and subroutines) simultaneously loaded in memory operate on a common set of variables, flags, and strings, each identified by a unique for each data type ID number.
The fact that the interpreter runs in a loop influences the general programming principles and style when programming for AGDS. This makes programming a little unusual and takes a certain time to get used to. For example, many cyclic activities requiring explicit loops in "conventional" programming languages are executed in the interpreter programs by default, provided the program has a proper structure.
General hints on how to reduce the time to adapt to the interpreter's language are given below, using an educational program Thunderstorm as an example. However, this does not reduce the usefulness of analyzing the game programs of Sierra On-Line, Inc.
Interpreter work cycle
+---------------------------+ | 1. delay time | +---------------------------+ | V +----------------------------+ |2. clear the keyboard buffer| +----------------------------+ | V +---------------------------+ | Flag (2) - > 0 | | Flag (4) - > 0 | +---------------------------+ | V +-------------------------------------+ | 3. poll keyboard and joystick | +-------------------------------------+ | V +-------------------------------------+ | If the current mode is | | - program_control, the direction of | | Ego motion <-- var(6). | | - player.control, var (6) --> dir. | | of Ego motion. | +-------------------------------------+ | V +---------------------------------------------------------------+ | For all objects for which command animate.obj, start_update | | and draw were carried out, the recalculation of the direction | | of movement is performed. | +---------------------------------------------------------------+ | V +---------------------------------------------------------------+ | If the score has changed (var (3)) or the sound has been | | turned on or off (Flag (9)), the status line is updated. | +---------------------------------------------------------------+ | +---------+ V +--------------------------+ +---------------->| 4 Logic 0 is executed | | +--------------------------+ | | | V | +--------------------------------------+ | | - Dir. of motion of Ego <-- var (6) | | | - If score (var (3)) or Flag (9) | | | have changed their values - update | | | the status and score (on Var (3)); | | | - Var (5) - > 0; | | | - Var (4) - > 0; | | | - Flag (5) - > 0!!!! | | | - Flag (6) - > 0; | | | - Flag (12) - > 0. | | +--------------------------------------+ +----------------------------+ | | Execute: | V | ~~~~~~~~~~~~~~~~~~~~~~~~ | +------------------------+ | - stop.update; | | Update all controlled | | - unanimate.all; | | objects on the screen. | | - destroy all logic | +------------------------+ | resources except | | | for logic 0; | V | - player.control; | +--------------+ | - unblock; | | new.room n | | - set_horizon 36; | | or | | - var (1) = var (0); | | new.room.v n | | - var (0) = n | Var(n); | | was issued? | | - var (4) = 0; | | | | - var (5) = 0; | +-------+------+ | - var (9) = 0; |<-----------+ Yes | No | | - var (16) = number of | +-------+--+---+ | view assoc. w/Ego; | | | - Ego coords from var (2); | | | - var (2) = 0; | | | - flag (2) - > 0; | V | - flag (5) - > 1!!!! | +--------------+ | - score < - var (3); | | Go to step 1 | +----------------------------+ +--------------+
AGI data types
Written by Lance Ewing, with additions/modifications by Claudio Matsuoka (Last updated: 22 May 1999).
There is a number of data types used as AGI command parameters, listed below:
Variable
This is an unsigned eight-bit data type equivalent of a byte, or unsigned char. Its values range from 0 to 255. There are 256 variables, being the first 27 (listed in Table 3-1) reserved for internal use by the interprter. On interpreter startup, all variables are set to 0.
Variable | Description |
---|---|
0 | Current room number, initially 0 |
1 | Previous room number |
2 | Code of the border touched by ego, according to Table 3-2 |
3 | Current score |
4 | Number of the object, if not ego, that touched the border |
5 | Code of border touched by the object in v4 |
6 | Direction of ego's motion Figure 3-2 |
7 | Maximum score |
8 | Number of free 256-byte pages of memory |
9 | Number of the word in the user message that was not found in the dictionary |
10 | Interpreter cycle time in 20ths of second |
11 | Seconds (in the internal clock) |
12 | Minutes (in the internal clock) |
13 | Hours (in the internal clock) |
14 | Days (in the internal clock) |
15 | Joystick sensitivity (if f8 == 1) |
16 | View resource associated with ego |
17 | Interpreter error code |
18 | Error code parameter |
19 | Key pressed on the keyboard |
20 | Computer type (see Table 3-3) |
21 | Message window timer (if f15 == 0, the window is automatically closed after 0.5 * v21 seconds) |
22 | Sound type (see Table 3-4) |
23 | Sound volume (0 to 15) |
24 | Input buffer size (default 41) |
25 | Number of inventory item selected using the status command or 255 if none |
26 | Monitor type (see Table 3-5) |
Code | Description |
---|---|
0 | Touched nothing |
1 | Top edge of the screen or the horizon |
2 | Right edge of the screen |
3 | Bottom edge of the screen |
4 | Left edge of the screen |
Figure 3-2. Ego's directions
1 8 | 2 \ | / \ | / 7 ------------- 3 0 - the object / | \ is motionless / | \ 6 | 4 5
Code | Description |
---|---|
0 | IBM-PC |
4 | Atari ST |
5 | Amiga |
7 | Apple IIGS |
20 | Amiga's Space Quest I (Version 1.2, AGI 2.082) |
Code | Description |
---|---|
0 | IBM-PC |
3 | Tandy (This value is also used by the Amiga AGI and Apple IIGS AGI) |
8 | Apple IIGS's Gold Rush! (Version 1.0M 1989-02-28 (CE), AGI 3.003) uses value 8 |
Code | Description |
---|---|
0 | CGA (This value is also used by the Apple IIGS AGI) |
2 | Hercules |
3 | EGA (This value is also used by the Amiga AGI) |
0 | Amiga's King's Quest I (Version 1.0U, AGI 2.082) and Space Quest I (Version 1.2, AGI 2.082) |
0 | Amiga's Space Quest I (Version 1.2, AGI 2.082) |
Flag
Flags are 1-bit boolean data types whose value can be either 1 or 0 (true or false). There are 256 flags numbered from 0 to 255. The first 16 flags (listed in Table 3-6 are reserved by the interpreter for internal use. On the interpreter startup, all flags are set to 0.
Flag | Description |
---|---|
0 | Ego's base line is completely on water |
1 | Ego is completely obscured by another object |
2 | The player has entered a command |
3 | Ego touched a trigger line |
4 | said accepted user input |
5 | Room script executed for the first time |
6 | restart.game has been executed |
7 | Writing to the script buffer is blocked |
8 | If set, v15 determines joystick sensitivity |
9 | Sound is enabled |
10 | Built-in debugger is enabled |
11 | Logic 0 is executed for the first time |
12 | restore.game has been executed |
13 | status to select items |
14 | Enable menu |
15 | Enable non-blocking windows. If set, the message window is left on the screen, otherwise the message window is closed when ENTER or ESC are pressed. If v21 is not zero, the window is closed automatically after v21 * 500 milliseconds. |
16 | (Related to game restart) |
String
Strings are 40 characters long, including the zero terminator. String number zero is the input prompt (e.g. ">" or "]"). The majority of AGI interpreters have enough room for exactly 24 strings: AGI interpreter versions 2.089, 2.411, 3.002.107 and 3.002.149 have room for 12 strings, the remaining versions have room for 24 strings.
Whether the versions that have enough space for 24 strings do infact support 24 strings is not known.
Word
Words are the words that the user types in. An input sentence is composed of a number of words. The important words (e.g. for the sentence "look at the tree", "look" and "tree" are important) are assigned to the words variables corresponding to their place in the sentence once unimportant words and punctuation has been taken out. For example, in the earlier example word(1) would be "look" and word(2) would be "tree". Words can be converted to strings.
Inventory Item
There are a number of AGI commands that refer to inventory items (e.g. get(), drop()). One of the arguments to these commands will represent an inventory item number. In the original LOGIC source text, the programmer would have written things like get(dagger) but the interpreter knows them only as an index into the OBJECT table.
Object
Objects are instances of View resources in use in a given room, and essentially an entry in the view table. Many objects can use the same view resource for its appearance (e.g. in KQ1 with the crocodile filled moat). View table entries have positional and sequential attributes that only make sense for a on-screen
There can be a bit of confusion between this type and the inventory item because of the name of the object file. The object file has almost nothing to do with what the interpreter generally calls objects, such as move.obj, animate.obj, set.view, set.cel, set.loop and draw.
In fact the interpreter calls its usage of the VIEW resource "objects". An object is one usage of a VIEW resource. It is essentially an entry in the object table (or VIEW table/VIEW list). Many objects can use the same VIEW resource for its appearance which can be seen in KQ1 and BC with the crocodile filled moats.
When an AGI command has an object as a parameter to it, the value of the parameter is an index number into a table of objects that the interpreter is currently controlling.
Message
At the end of every LOGIC file is a message section. There need not be any messages in it, but it will still exist. Messages in logic.0 are global messages whereas all other messages can only be accessed from their own LOGIC code. AGI commands that have messages as parameters refer to a message number in their own LOGIC file. I say that those in logic.0 are global because messages and strings can contain format codes one of which is used to display messages from logic.0.
Example:
<syntax type="C++"> print ("Message 34 in logic.0 is %g34."); </syntax>
Therefore messages in logic.0 can be displayed by any LOGIC in this way.
Memory organization
Written by Lance Ewing (Last updated: 31 August 1997).
The following information gives a rough guide as to how Sierra's AGI interpreter uses its memory. You can view this in operation in MS-DOS by using a memory resident program like Game Wizard.
- Length of first data area (2 bytes)
- Game signature (8 bytes)
- Variables (256 bytes)
- Flags (256 bits, 32 bytes)
- Timers, blocks, and other special AGI variables
- Strings (12*40 bytes or 24*40 bytes)
- unknown
- "Press ENTER to quit" etc
- Script command jump table
- "Avis Durgan" encryption string
- Rest of agidata.ovl is in here
- unknown
- words.tok file
- object file
- VIEW object table
- logic.0
- Other loaded resources
Game IDs and loaders
Written by Lance Ewing with additions/modifications by Peter Kelly and Anders M. Olsson (Last updated: 3 March 1998).
Since the data formats for the different AGI interpreter versions are mostly identical or easily convertible to each other, we should expect to be able to run one games data with anothers interpreter. This sounds like a reasonable assumption but when you try it, the interpreter rejects the new data. The reason behind this is game IDs.
Every interpreter has got a game ID coded into it and it expects to be given data for that game. Somewhere in the initialization code for each game is a set.game.id(). When this command is encountered, the interpreter checks the given game ID and compares it with its own. If they are not the same, it quits immediately. Presumably the reason for this was to stop people running games with the wrong interpter version, which can cause problems (unless you know what you're doing).
How do we get around it?
Method 1: The hard way.
Well, basically we have to find the game ID signature in the AGI interpreter file and change it to the ID of the game whose data we wish to be executed.
Here are a few examples of some game ID's and the data following them:
- Police Quest: 'P' 'Q' 0x00 'e' 'I' 'D' 'X'
- Mother Goose: 'M' 'G' 0x00 'e' 'I' 'D' 'X'
- Manhunter 2: 'M' 'H' '2' 0x00 'I' 'D' 'X'
- XMAS Demo: 'X' 'M' 'A' 'S' 0x00 'D' 'X'
- Leisure Suit Larry: 'L' 'L' 'L' 'L' 'L' 0x00 'X'
The game ID itself is the null terminated string that ends at the 00h. The text that follows it is of no significance, it is simply to fill in the gap although it is useful when searching for the game ID because, as you can see, this text is always "eIDX" (presubably from "gameIDX" before being overwritten by the actual ID) or a suffix of it (i.e. "IDX", "DX", or "X"). For most games, the game ID is two or three characters which means that you will be able to rely on the "IDX" string being there for these games.
Method 2: The easy way
Using the above method will allow you to run a different game with an interpreter, but you will still only be able to run the game that has the specified game ID. There is another way around this, which involves patching the logic source. This can be accomplished using a program to edit the logics such as AGI Studio (for the Windows platform). What you can usually do is look at the top part of logic 0 and find out what the initialization logic is (usually around 90--100 -- you might have to look at a few logics before you find it). Then simply go to that logic, find the set.game.id command, remove it, and recompile the logic. Since the command is not used, the interpreter will not try and compare it with it's own ID, and it won't quit.
The only drawback to using this method is that the saved games no longer have the game ID in their name (so, for example, a savegame would be called sg.1 instead of kq2sg.1), but this is not a major hassle.
Why can't I find the game ID?
This is because a lot of the AGI files themselves are encrypted. See section Encrypted AGI Data for further information.
Possibilities
What this means is that with a few useful AGI utility programs, it is possible to run any set of game data with a compatible AGI interpreter. For example, games that use AGI versions 2.915, 2.917, and 2.936 should be able to be converted into AGIv3 format and run with an AGIv3 interpreter.
"Compatible" as it is used above refers not only to the data differences but also to some AGI command descrepencies. There are about four AGI commands that have changed the number of arguments passed to them as the interpreter developed. This sort of thing is the only real obstacle to running data on another interpreter.
Encrypted AGI data
Written by Lance Ewing, with additions/modifications by Peter Kelly and Anders M. Olsson (Last updated: 3 March 1998).
Many AGI files are encrypted. This was probably to give some protection to their product which was quite unique at the time. (You can tell the difference between an encrypted AGI file and a non-encrypted AGI file by the first two characters. If they are "MZ" (the MS-DOS executable file header), then it not encrypted.) The AGI file is decrypted by the loader program. This is usually called sierra.com in MS-DOS but can also be named after the game (eg. kq1.com). In AGI version 1, the loader was called load. If an AGI game doesn't have a loader, then it shouldn't be encrypted. If an AGI game does have a loader, it does not necessarily mean that the AGI file is encrypted.
The decryption key was not originally embedded in the loader file. If you find a game where the key is embedded in the loader, it is because that game has had copy protection removed. There are several utilities to do that. Anders M Olsson's SUP is one of them. The CD re-releases have been unprotected by Sierra in exactly the same fashion.
The loader would read the decryption key from track 6 of the disk, load the executable file, decrypt and run it. Track 6 had a special format that was supposedly impossible to exactly reproduce by a standard PC floppy disk controller. An interesting note is that when a copy-protected Sierra game asked for the original disk one, you could insert disk one from any protected Sierra game. The contents of track 6 were always the same.
But even though track 6 was the same, all games didn't use exactly the same encryption key. The two bytes in the loader, immediately following the string "keyOfs", gave an offset on track 6 from where the key would be loaded.
So, if the decryption string consists of 128 `k' characters, it can actually mean one of two things: Either the AGI file is not encrypted, or the game is still copy-protected.
How does the encryption work?
The loader contains a 128 byte string called the decryption key. Here's the process of decryption:
- The carry bit is zeroed.
- The first 128 bytes of the AGI file are XORed with the decryption key.
- The whole key string is rotated one bit to the right, including the carry-bit. (Bit 7 of the first byte is loaded from the carry.
- Bit 0 of the last byte is placed in the carry, where it will remain until the next rotation.
- The bit that was bit 0 of the last byte (now in carry) is ORed into bit 7 of the first byte.
- The next 128 bytes of the AGI file are XORed with the new key. If the end of the AGI file has not been reached, then go back to 3.
Where in the loader is the decryption key?
The start of a loader will look something like this:
LOADER v3.0 (c) Copyright Sierra On-Line, Inc. 1987 keyOfs
There are two bytes in between the "keyOfs" string and the start of the description string. If the decryption key consists of 128 `k' characters, then the AGI file is not encrypted (or the game is still copy-protected). If it consists of a whole lot of random looking characters, then it is encrypted.
As an aside, the decryption string is followed immediately by the stack and is usually marked with a whole string of `s' characters. Thus we have `k' for key and `s' for stack. The stack is usually 256 bytes long.
Decrypting the AGI file
Decrypting the AGI file is simply a matter of writing a program to read the loader to get the decryption string, and then applying the process mentioned above to the AGI file. Once this has been done, the game ID can be located.
Player input parsing
From the AGDS documentation, translated by Vassili Bykov (Last update: 31 August 1998).
Note: This section is an excerpt from the description of the said command from section Reference of LOGIC commands.
Here is how the input is matched. After the player types a message and presses ENTER, the input line is processed by the interpreter in the following way:
- The interpreter removes all punctuation marks.
- All characters are converted to lowercase.
- All sequences of more than one space are replaced with a single space.
- Starting with the first word of the input, the interpreter looks up the vocabulary, trying to find the longest character sequence matching the input line.
If the search is unsuccessful, v9 is assigned the number of the word in the message that failed to match and the processing ends. If all the words have been assigned some codes:
- The Interpreter removes from the sequence of codes all zeros (that means all vocabulary words with zero codes are ignored).
- f2 (the user has entered an input line) is set to 1
- f4 (said command accepted the user input) is set to 0.
If the sequence of code produced by the interpreter is V(1), V(2),...V(m), the test is performed as follows:
If f2 == 0 or f4 == 1, return FALSE.
Compare parameters W(i) and codes V(i) as follows:
- if W(i) = 1, it matches any V(i);
- if W(i) = 9999, it matches the whole remaining input i.e. the codes V(i), V(i+1),...V(m).
Otherwise W(i) should be equal to V(i).
If all elements match, f4 (said accepted the user input) is set to 1 and the command returns TRUE. Otherwise, FALSE is returned.
AGI interpreter versions
Written by Jeremy Hayes, with modifications by Claudio Matsuoka (Last update: 22 May 1999).
Sorted by Game
Known Sierra AGI versions are listed in AGI games and interpreter versions table. There are a number of different versions of the AGI interpeter but generally the data formats are the same or can be converted between each other. AGI interpreter versions and features table compares the number of commands and other features in these interpreter versions.
Game | Version | Int. version | Date</thead><tbody> |
---|---|---|---|
The Black Cauldron | 2.00 | 2.439 | 14 Jun 1987 |
Gold Rush! | 2.01 | 3.002.149 | 22 Dec 1988 |
King's Quest I | 1.0U | 2.272 | Unknown |
King's Quest I | 2.0F | 2.425 | 1987 |
King's Quest I | 2.0F | 2.917 | Unknown |
King's Quest II | 2.1 | 2.411 | Unknown |
King's Quest II | 2.2 | 2.426 | Unknown |
King's Quest II | 2.2 | 2.917 | 1987 |
King's Quest III | 1.01 | 2.272 | 8 Nov 1986 |
King's Quest III | 2.00 | 2.435 | 25 May 1987 |
King's Quest III | 2.14 | 2.936 | 15 Mar 1988 |
King's Quest IV | 2.0 | 3.002.086 | 27 Jul 1988 |
King's Quest IV demo | ? | 3.002.102 | Unknown |
Leisure Suit Larry | 1.00 | 2.440 | 1 Jun 1987 |
Mixed-Up Mother Goose | ? | 2.915 | Unknown |
Man Hunter: New York | 1.22 | 3.002.102 | 30 Aug 1988 |
Man Hunter: New York | 1.22 | 3.002.107 | 31 Aug 1988 |
Man Hunter: San Francisco | 3.02B | 3.002.149 | 26 Jul 1989 |
Man Hunter: San Francisco | 3.03 | 3.002.149 | 17 Aug 1989 |
Police Quest I | 2.0G | 2.917 | 3 Dec 1987 |
Space Quest I | 1.0X | 2.089 | Unknown |
Space Quest I | 2.2 | 2.426 | Unknown |
Space Quest I | 2.2 | 2.917 | 1987 |
Space Quest II | 2.0C | 2.915 | 1987 |
Space Quest II | 2.0C | 2.917 | Unknown |
Space Quest II | 2.0D | 2.936 | Unknown |
Space Quest II | 2.0F | 2.936 | Unknown |
Christmas Card | ? | 2.272 | Unknown |
Sorted by Int. Ver.
AGI version | Int. size | Agidata size | Commands | Encrypted objects | LZW |
---|---|---|---|---|---|
2.089 | 34305 | 6656 | 155 | No | No |
2.272 | 34816 | 6656 | 161 | No | No |
2.411 | 38400 | 7680 | 169 | Yes | No |
2.435 | 38400 | 7680 | 169 | Yes | No |
2.439 | 38400 | 7680 | 169 | Yes | No |
2.440 | 38400 | 7680 | 169 | Yes | No |
2.915 | 39424 | 8192 | 173 | Yes | No |
2.917 | 39424 | 8192 | 173 | Yes | No |
2.936 | 39424 | 8192 | 175 | Yes | No |
3.002.086 | 40866 | 8064 | 177 | Yes | Yes |
3.002.098 | 40898 | 8080 | 181 | Yes | Yes |
3.002.102 | 40898 | 8080 | 181 | Yes | Yes |
3.002.107 | 40962 | 8080 | 181 | Yes | Yes |
3.002.149 | 40520 | 7488 | 181 | Yes | Yes |
Version differences
Written by Lance Ewing (Last updated: 27 January 1998).
There are a number of different versions of the AGI interpeter but generally the data formats are the same or can easy be converted between each other. The following table is a list of AGI interpreter versions that I know of:
AGI Version | Interp Size | Agidata Size | Num commands | Object Encrypted | LZW |
---|---|---|---|---|---|
2.089 | 34305 | 6556 | 155 | No | No |
2.272 | 34816 | 6656 | 161 | No | No |
2.411 | 38400 | 7680 | 169 | Yes | No |
2.435 | 38400 | 7680 | 169 | Yes | No |
2.439 | 38400 | 7680 | 169 | Yes | No |
2.440 | 38400 | 7680 | 169 | Yes | No |
2.915 | 39424 | 8192 | 173 | Yes | No |
2.917 | 39424 | 8192 | 173 | Yes | No |
2.936 | 39424 | 8192 | 177 | Yes | No |
3.002.086 | 40866 | 8064 | 177 | Yes | Yes |
3.002.098 | 40898 | 8080 | 181 | Yes | Yes |
3.002.102 | 40898 | 8080 | 177 | Yes | Yes |
3.002.107 | 40962 | 8080 | 177 | Yes | Yes |
3.002.149 | 40520 | 7488 | 177 | Yes | Yes |
This table illustrates a number of things:
- Firstly, as the interpreter version increased, the number of AGI commands supported increased with it. The last eleven we do not know the names of.
- There are two main AGI versions: AGI v2 and AGI v3.
- The early AGI v2 games did not encrypt the object file with the "Avis Durgan" string.
- AGI v3 games use adaptive LZW to compress their LOGIC, VIEW, and SOUND files.
Command argument number descrepancies
There are four commands that have changed the number of arguments that are passed to them. All this information is based on observations made of the above interpreter versions.
- The quit command had no arguments for version 2.089 whereas all the others above have one argument.
- The print.at and print.at.v commands had only three arguments for versions 2.089--2.400 and four for the other versions.
- Unknown command number 176 had one argument for version 3.002.086 but later versions had no arguments for this command.
Number of strings
There may be some differences in the number of strings supported by some interpreters as well. All interpreters have at least 12 strings. Most interpreters have space for 24 strings but I don't know if the extra space is used for strings or not.