2014-02-04 21:18:58 +00:00
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<!doctype linuxdoc system>
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<article>
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<title>ca65 Macros for Self Modifying Code
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<author>Christian Krüger
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<abstract>
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The 'smc.inc' macro package for ca65 eases the use, increases the safeness and
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self-explanation of 'self-modifying-code' (SMC).
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</abstract>
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<!-- Table of contents -->
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<toc>
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<!-- Begin the document -->
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<sect>Overview<p>
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When reading assembler sources, self modifying code is often hard to identify
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and applying it needs a lot of discipline.
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Since the cacheless 6502 is a thankful target of such kind of code, the macro
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package will not only reduce this complexness, but also document the use. The
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resulting source is more self-explanatory and so easier to maintain.
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While for general purposes SMC is not a desired form for implementations, it
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can be quite useful for a small range of scenarios. Normally SMC will be
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introduced when optimizing code in respect to:
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<itemize>
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<item>speed and/or
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<item>size.
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</itemize>
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Please mind that SMC can only be applied for code in RAM, which means that a
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general purpose library with SMC excludes ROM targets!
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The ca65 SMC macro package consists of two files:
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<itemize>
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<item><tt>smc.inc</tt>
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<item><tt>opcodes.inc</tt>
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</itemize>
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The latter is only needed if you also plan to modify opcodes and not only data
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within your code.
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<sect>Usage<p>
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The use of the macros is quite simple:
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Original:
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<tscreen><verb>
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PHA
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JSR SUBROUTINE
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PLA
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</verb></tscreen>
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By applying SMC, the speed will now be increased by once cycle:
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SMC:
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<tscreen><verb>
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SMC_StoreValue RestoreAccu
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JSR SUBROUTINE
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SMC RestoreAccu, { LDA #SMC_Value }
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</verb></tscreen>
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The first line stores the value of the accu into the '<tt>RestoreAccu</tt>'
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labeled SMC target.
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Please note:
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<enum>
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<item> for all SMC store or transfer operations, a second argument can be
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given. This determines the register for the operation:
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'<tt>SMC_StoreValue Label, y</tt>' will store the value of the
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Y-register.
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If the second argument is missing, the accu will be used automatically.
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<item> The label targets a 'special SMC namespace'. It fits only to
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destinations which are introduced with the macro '<tt>SMC</tt>'. A
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normal label '<tt>RestoreAccu</tt>' wouldn't match and could even
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coexist (even if you should abstain from doing so).
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<item> The macro '<tt>SMC_StoreValue</tt>' takes care, that the store
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operation will occur on the value-position of a SMC-instruction. As
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you will see, other macros influence other instruction part positions.
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2021-12-14 12:13:16 +00:00
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There is no consistency check, if the targeted SMC instruction actually
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2014-02-04 21:18:58 +00:00
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contains a value. Storing a 'value' on an immplied SMC instruction
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would corrupt the following memory cell!
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</enum>
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The second line needs no further explanation, this is just a placeholder for
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some code in the example.
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The third line is the code line which is about to be modified. It has to start
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with the '<tt>SMC</tt>' macro and must be labeled, so that the modification
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can be designated. Then the unmodified code is given in curly braces.
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Please note the usage of the value placeholder 'SMC_Value'. Using such a
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placeholder has two advantages:
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<enum>
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<item> The code is better documented. It is clearly visible that the given
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value is about to be changed.
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<item> When examining an (initial) disassembly (e.g. in a debugger), these
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2023-11-08 10:13:31 +00:00
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placeholders can be better identified: They are fixed and, you may
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notice that below, quite eye catching defined.
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</enum>
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<sect1>Argument placeholders<p>
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There are four kinds of placeholders:
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<descrip>
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<label id="Address placeholder">
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<tag><tt>SMC_AbsAdr</tt></tag>
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Used to indicate an address. The value is '<tt>$FADE</tt>'.
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Example: <tt>STA SMC_AbsAdr</tt>
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<label id="Zero-Page-Address placeholder">
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<tag><tt>SMC_ZpAdr</tt></tag>
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Used to indicate a zero-page-address. The value is '<tt>$00</tt>'.
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Example: <tt>LDA SMC_ZpAdr</tt>
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<label id="Opcode placeholder">
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<tag><tt>SMC_Opcode</tt></tag>
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Used to indicate an instruction. The value is '<tt>NOP</tt>'.
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Example: <tt>SMC_Opcode</tt>
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<label id="Immediate value placeholder">
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<tag><tt>SMC_Value</tt></tag>
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Used to indicate a value. The value is '<tt>$42</tt>'.
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Example: <tt>LDX #SMC_Value</tt>
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</descrip>
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Attention: Often code is modified after the initial use - where using the
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placeholders does not makes sense. Please mind also, that in very variable
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expressions (e.g. opcode and argument is about to be changed), placeholders
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can lead to unidentifyable code for a debugger/disassembler:
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<tt>SMC Example, { SMC_Opcode SMC_AbsAdr } </tt>
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Since the opcode is '<tt/NOP/', the value '<tt/$DE/' from '<tt/$FADE/' will
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interpreted as opcode in a disassembler too. This breaks the correct
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disassembly, because '<tt/$DE/' is interpreted as '<tt/DEC abx/'. Establishing
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a valid placeholder instruction may be better:
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<tt>SMC Example, { sta SMC_AbsAdr } ; Note: Opcode will be modified too!</tt>
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<sect1>Accessing opcodes<p>
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Some macros are designed to access the instruction of a code line. To increase
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readability, please use the opcodes as defined in the '<tt>opcodes.inc</tt>'
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file.
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<descrip>
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<label id="Transfer opcode">
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<tag><tt>SMC_TransferOpcode label, opcode (, register)</tt></tag>
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Loads and store an opcode to given SMC instruction.
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Example:
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<tscreen><verb>
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SMC SumRegister, { LDA #10 }
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JSR OUTPUT
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SMC_TransferOpcode SumRegister, OPC_ADC_imm, x
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</verb></tscreen>
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The macro above will load the opcode '<tt>ADC #</tt>' into the x - register
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and stores it at the place of the '<tt>LDA #</tt>'.
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<label id="Load opcode">
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<tag><tt>SMC_LoadOpcode label (, register)</tt></tag>
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Loads the opcode of a SMC line to the given register.
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Example:
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<tscreen><verb>
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SMC ShiftOrNothing, { LSL }
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SMC_LoadOpcode ShiftOrNothing, y
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CPY #OPC_NOP
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BEQ Exit
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</verb></tscreen>
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<label id="Store opcode">
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<tag><tt>SMC_StoreOpcode label (, register)</tt></tag>
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Stores the value of the given register at the opcode place of a SMC line.
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Example:
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<tscreen><verb>
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SetBoldMode:
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LDA #OPC_INX
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SMC_StoreOpcode AdaptCharWidth
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SMC_StoreOpcode AdaptUnderlineWidth
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RTS
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...
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SMC AdaptCharWidth, { NOP }
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...
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SMC AdaptUnderlineWidth, { NOP }
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</verb></tscreen>
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</descrip>
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<sect1>Accessing arguments<p>
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These marcos are determined to get, set and change arguments of instructions:
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<descrip>
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<label id="Change branch">
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<tag><tt>SMC_ChangeBranch label, destination (, register)</tt></tag>
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2016-01-05 14:38:05 +00:00
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Used to modify the destination of a branch instruction. If the address offset
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2014-02-04 21:18:58 +00:00
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exceeds the supported range of 8-bit of the 6502, a error will be thrown.
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Example:
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<tscreen><verb>
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Disable Handler:
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SMC_ChangeBranch BranchToHandler, Exit
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RTS
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...
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LDA warning
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SMC BranchToHandler, { BNE Handler }
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Exit:
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RTS
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</verb></tscreen>
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<label id="Transfer value">
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<tag><tt>SMC_TransferValue label, value (, register)</tt></tag>
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Changes the value of a SMC line.
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Example:
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<tscreen><verb>
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ClearDefault:
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SMC_TransferValue LoadDefault, 0
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RTS
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...
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SMC LoadDefault, { LDX #25 }
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</verb></tscreen>
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<label id="Load value">
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<tag><tt>SMC_LoadValue label (, register)</tt></tag>
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2022-02-03 00:01:10 +00:00
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Retrieves the value of a SMC line.
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2014-02-04 21:18:58 +00:00
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Example:
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<tscreen><verb>
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ShowDefault:
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SMC_LoadValue LoadDefault
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JSR PrintValue
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RTS
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...
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SMC LoadDefault, { LDX #25 }
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</verb></tscreen>
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<label id="Store value">
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<tag><tt>SMC_StoreValue label (, register)</tt></tag>
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Stores the value in the register to given SMC line.
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Example:
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<tscreen><verb>
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InitCounters:
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LDY #0
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SMC_StoreValue GetI, y
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SMC_StoreValue GetJ, y
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SMC_StoreValue GetK, y
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...
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SMC GetI, { LDX #SMC_Value }
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...
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SMC GetJ, { LDX #SMC_Value }
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...
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SMC GetK, { LDX #SMC_Value }
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</verb></tscreen>
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<label id="Transfer low-byte">
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<tag><tt>SMC_TransferLowByte label, value (, register)</tt></tag>
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Does the same as '<tt>SMC_TransferValue</tt>' but should be used for
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low-bytes of addresses for better readability.
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2014-02-04 21:18:58 +00:00
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Example:
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<tscreen><verb>
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ActivateSecondDataSet:
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SMC_TransferLowByte LoadData, $40
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RTS
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...
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SMC LoadData, { LDA $2000 }
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</verb></tscreen>
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<label id="Load low-byte">
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<tag><tt>SMC_LoadLowByte label (, register)</tt></tag>
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Does the same as '<tt>SMC_LoadValue</tt>' but should be used for low-bytes
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2016-01-05 14:38:05 +00:00
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of addresses for better readability.
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2014-02-04 21:18:58 +00:00
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Example:
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<tscreen><verb>
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IsSecondDataSetActive:
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SMC_LoadLowByte LoadData, y
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CPY #$40
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BNE NotActive
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...
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SMC LoadData, { LDA $2000 }
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</verb></tscreen>
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<label id="Store low-byte">
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<tag><tt>SMC_StoreLowByte label (, register)</tt></tag>
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Does the same as '<tt>SMC_StoreValue</tt>' but should be used for low-bytes
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2016-01-05 14:38:05 +00:00
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of addresses for better readability.
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2014-02-04 21:18:58 +00:00
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Example:
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<tscreen><verb>
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InitStructureBaseAddresses:
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LDX #0
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SMC_StoreLowByte GetPlayerGraphic, x
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SMC_StoreLowByte GetObjectGraphic, x
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SMC_StoreLowByte StoreCollisionData, x
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RTS
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...
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SMC GetPlayerGraphic, { LDX $2000 }
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...
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SMC GetObjectGraphic, { LDA $2100,x }
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...
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SMC StoreCollisionData, { STY $2200 }
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</verb></tscreen>
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<label id="Transfer high-byte">
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<tag><tt>SMC_TransferHighByte label, value (, register)</tt></tag>
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Loads and stores the given value via the named register to the high-byte
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2016-01-05 14:38:05 +00:00
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address portion of an SMC-instruction.
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2014-02-04 21:18:58 +00:00
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Example:
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<tscreen><verb>
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PlaySFX:
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SMC GetVolume { LDA $3200,x }
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STA SoundOut
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INX
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BNE PlaySFX
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...
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PlayOtherSound:
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SMC_TransferHighByte GetVolume, $34
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</verb></tscreen>
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<label id="Load high-byte">
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<tag><tt>SMC_LoadHighByte label (, register)</tt></tag>
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2016-01-05 14:38:05 +00:00
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Loads the high-byte part of an SMC-instruction address to the given register.
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2014-02-04 21:18:58 +00:00
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Example:
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<tscreen><verb>
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PlaySFX:
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SMC GetVolume { LDA $3200,x }
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...
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SMC_LoadHighByte GetVolume
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cmp #$34
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beq OtherSoundPlaying
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...
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</verb></tscreen>
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<label id="Store high-byte">
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<tag><tt>SMC_StoreHighByte label (, register)</tt></tag>
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2016-01-05 14:38:05 +00:00
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Stores the high-byte address part of an SMC-instruction from the given
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2014-02-04 21:18:58 +00:00
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register.
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Example:
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<tscreen><verb>
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SetupLevel2:
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LDX #(>Level2Base)
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SMC_StoreHighByte GetLevelData, x
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SMC_StoreHighByte GetScreenData, x
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SMC_StoreHighByte GetSoundData, x
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RTS
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...
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SMC GetLevelData, { LDA Level1Base+Data }
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...
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SMC GetScreenData, { LDA Level1Base+Screen, x }
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...
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SMC GetSoundData, { LDA Level1Base+Sound, y }
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</verb></tscreen>
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2016-01-05 14:38:05 +00:00
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<label id="Transfer single address">
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2014-02-04 21:18:58 +00:00
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<tag><tt>SMC_TransferAddressSingle label, address (, register)</tt></tag>
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Transfers the contents of the given address via the given register to the
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designated SMC instruction.
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Example:
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<tscreen><verb>
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PrintHello:
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SMC_TransferAddressSingle GetChar, #HelloMsg
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...
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LDX #0
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NextChar:
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SMC GetChar, { LDA SMC_AbsAdr, x }
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BEQ leave
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JSR CharOut
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INX
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BNE NextChar
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</verb></tscreen>
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2016-01-05 14:38:05 +00:00
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<label id="Transfer address">
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2014-02-04 21:18:58 +00:00
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<tag><tt>SMC_TransferAddress label, address</tt></tag>
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Loads contents of given address to A/X and stores the result to SMC
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instruction. Allows reuse of register contents by using
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'<tt>SMC_StoreAddress</tt>' for multiple SMC instruction modifications.
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Example:
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<tscreen><verb>
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SMC_TransferAddress JumpTo, #CloseChannel
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...
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SMC JumpTo, { JMP OpenChannel }
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</verb></tscreen>
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<label id="Store address">
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<tag><tt>SMC_StoreAddress label</tt></tag>
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Stores the address value in a/x to a SMC instruction address position.
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Example:
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<tscreen><verb>
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SMC_StoreAddress GetData
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...
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SMC GetData, { LDA SMC_AbsAdr }
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</verb></tscreen>
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</descrip>
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<sect1>Operational macros<p>
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These marcos are determined to let read/modify/write opcodes work on parts of
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SMC instructions.
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<descrip>
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<label id="Operate on value">
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<tag><tt>SMC_OperateOnValue opcode, label</tt></tag>
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Let given opcode work on the value part of a SMC instruction.
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Example:
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<tscreen><verb>
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2019-02-12 21:50:49 +00:00
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SMC_OperateOnValue ASL, LoadMask ; shift mask to left
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2014-02-04 21:18:58 +00:00
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...
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SMC LoadMask, { LDA #$20 }
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</verb></tscreen>
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<label id="Operate on low-byte">
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<tag><tt>SMC_OperateOnLowByte opcode, label</tt></tag>
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Same as '<tt/SMC_OperateOnValue/' but renamed for better readability when
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accessing low-bytes of address.
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Example:
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<tscreen><verb>
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SMC_OperateOnLowByte DEC, AccessData
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...
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SMC AccessData, { LDX Data }
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</verb></tscreen>
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<label id="Operate on high-byte">
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<tag><tt>SMC_OperateOnHighByte opcode, label</tt></tag>
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Let the given opcode work on the high-byte part on a SMC-instruction.
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Example:
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<tscreen><verb>
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NextPage:
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SMC_OperateOnHighByte INC, GetPageData
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...
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SMC GetPageData, { LDA SourceData, X }
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</verb></tscreen>
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</descrip>
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<sect1>Scope macros<p>
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These marcos are determined to export and import SMC labels out of the current
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file scope. Please handle with care! If you cannot abstain from leaving the
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file scope, you should at least document the exported SMC lines very well. On
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import side no checking is available if the SMC line is correct accessed (e.g.
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invalid access to the value of an implied instruction)!
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<descrip>
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<label id="Export SMC line under given name">
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<tag><tt>SMC_Export alias, label</tt></tag>
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SMC label will be exported under given alias.
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Example:
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<tscreen><verb>
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.proc GetValue
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SMC LoadValue, { LDA #12 }
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rts
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.endproc
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SMC_Export GetValueLoader, GetValue::LoadValue
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</verb></tscreen>
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<label id="Import SMC alias">
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<tag><tt>SMC_Import alias</tt></tag>
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SMC line is made accessible under given alias.
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Example:
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<tscreen><verb>
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SMC_Import GetValueLoader
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...
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SMC_TransferValue GetValueLoader, #47
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...
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</verb></tscreen>
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</descrip>
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<sect>A complex example<p>
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Let's have a look on a quite sophisticated example for the usage of SMC. It
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not only modifies code, but also the modification of the code is modified -
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allowing reuse of some instructions.
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<descrip>
|
2014-04-25 07:33:53 +00:00
|
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|
<tag/The code is from my 'memset()'implementation:/
|
2014-02-04 21:18:58 +00:00
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<tscreen><verb>
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1: ...
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2: SMC_StoreAddress StoreAccuFirstSection
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3:
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4: StoreToFirstSection:
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5: SMC StoreAccuFirstSection, { sta SMC_AbsAdr, Y }
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6: ...
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7: RestoreCodeBranchBaseAdr:
|
2019-02-12 21:50:49 +00:00
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8: SMC FirstIncHighByte, { SMC_OperateOnHighByte inc, StoreAccuFirstSection } ; code will be overwritten to 'beq RestoreCode' (*)
|
2014-02-04 21:18:58 +00:00
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9: ...
|
2019-02-12 21:50:49 +00:00
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10: SMC_TransferOpcode FirstIncHighByte, OPC_BEQ , x ; change code marked above with (*)
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11: SMC_TransferValue FirstIncHighByte, #(restoreCode - RestoreCodeBranchBaseAdr-2), x ; set relative address to 'RestoreCode'
|
2014-02-04 21:18:58 +00:00
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12: ...
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13: restoreCode:
|
2019-02-12 21:50:49 +00:00
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14: SMC_TransferOpcode FirstIncHighByte, OPC_INC_abs , x ; restore original code...
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15: SMC_TransferValue FirstIncHighByte, #(<(StoreToFirstSection+2)), x ; (second byte of inc contained low-byte of address)
|
2014-02-04 21:18:58 +00:00
|
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16: ...
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</verb></tscreen>
|
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|
2014-04-25 07:33:53 +00:00
|
|
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<tag/Some explanation:/
|
2014-02-04 21:18:58 +00:00
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Line 2: The register pair A/X contains an address, which is stored on the
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address location of a SMC line called 'StoreAccuFirstSection'. According to
|
|
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cc65's calling convention, the low-byte is in accu while the high-byte is in
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the X-register.
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Line 5: The (modified) address is accessed.
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Line 8: We have a line here, which is about to be modified (it begins with
|
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|
SMC), but itself modifies code. Please note: Contrary to the rest of SMC-line
|
|
|
|
modifying macros, the 'OperateOn'-macros just expand their given arguments
|
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|
into a single instruction line. These can be changed of course too.
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Line 10,11: These lines construct a branch operation for line 8: The
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X-register will be used to change it from 'inc StoreAccuFirstSection+2'
|
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|
|
(high-byte operation) to 'beq restoreCode'. Please note: To calculate the
|
2021-12-14 12:13:16 +00:00
|
|
|
relative branch offset, we introduced a second label
|
2014-02-04 21:18:58 +00:00
|
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('RestoreCodeBranchBaseAdr') for to calculate it. Some could also use the
|
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internal name of the SMC label, but you should abstain to do so - it may be
|
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changed in the future...
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Line 14,15: The original code from line 8 is reestablished.
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|
</descrip>
|
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</article>
|