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175 lines
4.0 KiB
Markdown
---
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language: uxntal
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contributors:
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- ["Devine Lu Linvega", "https://wiki.xxiivv.com"]
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filename: learnuxn.tal
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---
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Uxntal is a stack-machine assembly language targeting the [Uxn virtual machine](https://wiki.xxiivv.com/site/uxn.html).
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Stack machine programming might look at bit odd, as it uses a postfix notation,
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which means that operators are always found at the end of an operation. For
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instance, one would write 3 4 + instead of 3 + 4.
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The expression written (5 + 10) * 3 in conventional notation would be
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written 10 5 + 3 * in reverse Polish notation.
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```forth
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( This is a comment )
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( All programming in Unxtal is done by manipulating the stack )
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#12 ( push a byte )
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#3456 ( push a short )
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( Uxn has 32 opcodes, each opcode has 3 possible modes )
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POP ( pop a byte )
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POP2 ( pop a short )
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( The modes are:
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[2] The short mode consumes two bytes from the stack.
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[k] The keep mode does not consume items from the stack.
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[r] The return mode makes the operator operate on the return-stack. )
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#12 #34 ADD ( 46 )
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#12 #34 ADDk ( 12 34 46 )
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( The modes can be combined )
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#1234 #5678 ADD2k ( 12 34 56 78 68 ac )
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( The arithmetic/bitwise opcodes are:
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ADD SUB MUL DIV
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AND ORA EOR SFT )
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( New opcodes can be created using macros )
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%MOD2 { DIV2k MUL2 SUB2 }
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#1234 #0421 MOD2 ( 01 b0 )
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( ---------------------------------------------------------------------------- )
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( A short is simply two bytes, each byte can be manipulated )
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#1234 SWP ( 34 12 )
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#1234 #5678 SWP2 ( 56 78 12 34 )
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#1234 #5678 SWP ( 12 34 78 56 )
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( Individual bytes of a short can be removed from the stack )
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#1234 POP ( 12 )
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#1234 NIP ( 34 )
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( The stack opcodes are:
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POP DUP NIP SWP OVR ROT )
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( ---------------------------------------------------------------------------- )
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( To compare values on the stack with each other )
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#12 #34 EQU ( 00 )
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#12 #12 EQU ( 01 )
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( Logic opcodes will put a flag with a value of either 00 or 01 )
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#12 #34 LTH
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#78 #56 GTH
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#0101 EQU2 ( 01 )
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( The logic opcodes are:
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EQU NEQ GTH LTH )
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( ---------------------------------------------------------------------------- )
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( Uxn's accessible memory is as follows:
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256 bytes of working stack
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256 bytes of return stack
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65536 bytes of memory
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256 bytes of IO memory )
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( The addressable memory is between 0000-ffff )
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#12 #0200 STA ( stored 12 at 0200 in memory )
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#3456 #0201 STA2 ( stored 3456 at 0201 in memory )
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#0200 LDA2 ( 12 34 )
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( The zero-page can be addressed with a single byte )
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#1234 #80 STZ2 ( stored 12 at 0080, and 34 at 0081 )
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#80 LDZ2 ( 12 34 )
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( Devices are ways for Uxn to communicate with the outside world
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There is a maximum of 16 devices connected to Uxn at once
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Device bytes are called ports, the Console device uses the 10-1f ports
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The console's port 18 is called /write )
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%EMIT { #18 DEO }
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#31 EMIT ( print "1" to console )
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( A label is equal to a position in the program )
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@parent ( defines a label "parent" )
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&child ( defines a sublabel "parent/child" )
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( Label positions can be pushed on stack )
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;parent ( push the absolute position, 2 bytes )
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,parent ( push the relative position, 1 byte )
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.parent ( push the zero-page position, 1 byte )
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( The memory opcodes are:
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LDZ STZ LDR STR
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LDA STA DEI DEO )
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( ---------------------------------------------------------------------------- )
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( Logic allows to create conditionals )
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#12 #34 NEQ ,skip JCN
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#31 EMIT
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@skip
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( Logic also allows to create for-loops )
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#3a #30
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@loop
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DUP EMIT ( print "123456789" to console )
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INC GTHk ,loop JCN
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POP2
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( Logic also allows to create while-loops )
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;word
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@while
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LDAk EMIT
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INC2 LDAk ,while JCN
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POP2
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BRK
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@word "vermillion $1
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( Subroutines can be jumped to with JSR, and returned from with JMP2r )
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;word ,print-word JSR
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BRK
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@print-word ( word* -- )
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@while
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LDAk EMIT
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INC2 LDAk ,while JCN
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POP2
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JMP2r
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@word "cerulean
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( The jump opcodes are:
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JMP JCN JSR )
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```
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## Ready For More?
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* [Uxntal Lessons](https://compudanzas.net/uxn_tutorial.html)
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* [Uxntal Assembly](https://wiki.xxiivv.com/site/uxntal.html)
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* [Uxntal Resources](https://github.com/hundredrabbits/awesome-uxn)
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