Added capSelect function that can arbitrary run a keyboard capability
- Made changes to the capabities/macro data structure to specify the capability arg count in the capability list - Remove the arg count from the result macro struct (as it is redundant)
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@ -37,7 +37,7 @@
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// Default Args (always sent): key state/analog of last key
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// Combo Length of 0 signifies end of sequence
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//
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// ResultMacro.guide -> [<combo length>|<function pointer>|<arg count>|<arg1>|<argn>|<function pointer>|...|<combo length>|...|0]
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// ResultMacro.guide -> [<combo length>|<capability index>|<arg1>|<argn>|<capability index>|...|<combo length>|...|0]
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// ResultMacro.pos -> <current combo position>
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// ResultMacro.state -> <last key state>
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// ResultMacro.stateType -> <last key state type>
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@ -50,10 +50,9 @@ typedef struct ResultMacro {
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} ResultMacro;
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// Guide, key element
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#define ResultGuideSize( guidePtr ) sizeof( ResultGuide ) - 1 + guidePtr->argCount
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#define ResultGuideSize( guidePtr ) sizeof( ResultGuide ) - 1 + CapabilitiesList[ guidePtr->index ].argCount
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typedef struct ResultGuide {
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uint8_t index;
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uint8_t argCount;
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uint8_t args; // This is used as an array pointer (but for packing purposes, must be 8 bit)
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} ResultGuide;
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@ -99,7 +98,6 @@ typedef struct TriggerGuide {
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// ----- Macros -----
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#define debugPrint_cap( arg ) 0, 1, arg
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void debugPrint_capability( uint8_t state, uint8_t stateType, uint8_t *args )
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{
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// Display capability name
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@ -116,10 +114,9 @@ void debugPrint_capability( uint8_t state, uint8_t stateType, uint8_t *args )
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printHex( state );
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print(" ) arg ( ");
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printHex( args[0] );
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print( " )" NL );
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print(" )");
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}
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#define debugPrint2_cap( arg1, arg2 ) 1, 2, arg1, arg2
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void debugPrint2_capability( uint8_t state, uint8_t stateType, uint8_t *args )
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{
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// Display capability name
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@ -138,17 +135,23 @@ void debugPrint2_capability( uint8_t state, uint8_t stateType, uint8_t *args )
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printHex( args[0] );
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print(" ) arg2 ( ");
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printHex( args[1] );
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print( " )" NL );
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print(" )");
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}
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// Capability
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typedef struct Capability {
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void *func;
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uint8_t argCount;
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} Capability;
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// Total Number of Capabilities
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#define CapabilitiesNum sizeof( CapabilitiesList ) / 4
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#define CapabilitiesNum sizeof( void* ) / 4 + sizeof( uint8_t )
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// Indexed Capabilities Table
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// TODO Should be moved to the Scan Module
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void *CapabilitiesList[] = {
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debugPrint_capability,
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debugPrint2_capability,
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Capability CapabilitiesList[] = {
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{ debugPrint_capability, 1 },
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{ debugPrint2_capability, 2 },
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};
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@ -164,10 +167,10 @@ void *CapabilitiesList[] = {
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#define Guide_RM( index ) static uint8_t rm##index##_guide[]
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#define Define_RM( index ) { rm##index##_guide, 0, 0, 0 }
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Guide_RM( 0 ) = { 1, debugPrint_cap( 0xDA ), 0 };
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Guide_RM( 1 ) = { 1, debugPrint_cap( 0xBE ), 1, debugPrint_cap( 0xEF ), 0 };
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Guide_RM( 2 ) = { 2, debugPrint_cap( 0xFA ), debugPrint_cap( 0xAD ), 0 };
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Guide_RM( 3 ) = { 1, debugPrint2_cap( 0xCA, 0xFE ), 0 };
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Guide_RM( 0 ) = { 1, 0, 0xDA, 0 };
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Guide_RM( 1 ) = { 1, 0, 0xBE, 1, 0, 0xEF, 0 };
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Guide_RM( 2 ) = { 2, 0, 0xFA, 0, 0xAD, 0 };
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Guide_RM( 3 ) = { 1, 1, 0xCA, 0xFE, 0 };
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// Total number of result macros (rm's)
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// Used to create pending rm's table
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@ -59,7 +59,7 @@ void cliFunc_macroStep ( char* args );
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char* macroCLIDictName = "Macro Module Commands";
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CLIDictItem macroCLIDict[] = {
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{ "capList", "Prints an indexed list of all non USB keycode capabilities.", cliFunc_capList },
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{ "capSelect", "Triggers the specified capability." NL "\t\t\033[35mU10\033[0m USB Code 0x0A, \033[35mK11\033[0m Keyboard Capability 0x0B", cliFunc_capSelect },
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{ "capSelect", "Triggers the specified capabilities. First two args are state and stateType." NL "\t\t\033[35mK11\033[0m Keyboard Capability 0x0B", cliFunc_capSelect },
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{ "keyPress", "Send key-presses to the macro module. Held until released. Duplicates have undefined behaviour." NL "\t\t\033[35mS10\033[0m Scancode 0x0A", cliFunc_keyPress },
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{ "keyRelease", "Release a key-press from the macro module. Duplicates have undefined behaviour." NL "\t\t\033[35mS10\033[0m Scancode 0x0A", cliFunc_keyRelease },
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{ "layerLatch", "Latch the specified indexed layer." NL "\t\t\033[35mL15\033[0m Indexed Layer 0x0F", cliFunc_layerLatch },
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@ -381,7 +381,7 @@ void cliFunc_capList( char* args )
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print(" - ");
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// Display/Lookup Capability Name (utilize debug mode of capability)
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void (*capability)(uint8_t, uint8_t, uint8_t*) = (void(*)(uint8_t, uint8_t, uint8_t*))(CapabilitiesList[ cap ]);
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void (*capability)(uint8_t, uint8_t, uint8_t*) = (void(*)(uint8_t, uint8_t, uint8_t*))(CapabilitiesList[ cap ].func);
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capability( 0xFF, 0xFF, 0 );
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}
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}
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@ -389,27 +389,64 @@ void cliFunc_capList( char* args )
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void cliFunc_capSelect( char* args )
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{
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// Parse code from argument
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// NOTE: Only first argument is used
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char* curArgs;
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char* arg1Ptr;
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char* arg2Ptr;
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CLI_argumentIsolation( args, &arg1Ptr, &arg2Ptr );
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char* arg2Ptr = args;
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// Depending on the first character, the lookup changes
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switch ( arg1Ptr[0] )
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// Total number of args to scan (must do a lookup if a keyboard capability is selected)
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unsigned int totalArgs = 2; // Always at least two args
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unsigned int cap = 0;
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// Arguments used for keyboard capability function
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unsigned int argSetCount = 0;
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uint8_t *argSet = (uint8_t*)args;
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// Process all args
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for ( unsigned int c = 0; argSetCount < totalArgs; c++ )
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{
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curArgs = arg2Ptr;
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CLI_argumentIsolation( curArgs, &arg1Ptr, &arg2Ptr );
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// Stop processing args if no more are found
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// Extra arguments are ignored
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if ( *arg1Ptr == '\0' )
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break;
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// For the first argument, choose the capability
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if ( c == 0 ) switch ( arg1Ptr[0] )
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{
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// Keyboard Capability
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case 'K':
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// TODO
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break;
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// Determine capability index
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cap = decToInt( &arg1Ptr[1] );
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// USB Code
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case 'U':
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// Just add the key to the USB Buffer
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if ( KeyIndex_BufferUsed < KEYBOARD_BUFFER )
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{
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KeyIndex_Buffer[KeyIndex_BufferUsed++] = decToInt( &arg1Ptr[1] );
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// Lookup the number of args
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totalArgs += CapabilitiesList[ cap ].argCount;
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continue;
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}
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// Because allocating memory isn't doable, and the argument count is arbitrary
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// The argument pointer is repurposed as the argument list (much smaller anyways)
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argSet[ argSetCount++ ] = (uint8_t)decToInt( arg1Ptr );
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// Once all the arguments are prepared, call the keyboard capability function
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if ( argSetCount == totalArgs )
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{
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// Indicate that the capability was called
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print( NL );
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info_msg("K");
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printInt8( cap );
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print(" - ");
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printHex( argSet[0] );
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print(" - ");
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printHex( argSet[1] );
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print(" - ");
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printHex( argSet[2] );
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print( "..." NL );
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void (*capability)(uint8_t, uint8_t, uint8_t*) = (void(*)(uint8_t, uint8_t, uint8_t*))(CapabilitiesList[ cap ].func);
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capability( argSet[0], argSet[1], &argSet[2] );
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}
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break;
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}
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}
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@ -626,22 +663,22 @@ void macroDebugShowResult( unsigned int index )
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print("|");
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// Display Function Ptr Address
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printHex( (unsigned int)CapabilitiesList[ guide->index ] );
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printHex( (unsigned int)CapabilitiesList[ guide->index ].func );
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print("|");
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// Display/Lookup Capability Name (utilize debug mode of capability)
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void (*capability)(uint8_t, uint8_t, uint8_t*) = (void(*)(uint8_t, uint8_t, uint8_t*))(CapabilitiesList[ guide->index ]);
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void (*capability)(uint8_t, uint8_t, uint8_t*) = (void(*)(uint8_t, uint8_t, uint8_t*))(CapabilitiesList[ guide->index ].func);
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capability( 0xFF, 0xFF, 0 );
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// Display Argument(s)
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print("(");
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for ( unsigned int arg = 0; arg < guide->argCount; arg++ )
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for ( unsigned int arg = 0; arg < CapabilitiesList[ guide->index ].argCount; arg++ )
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{
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// Arguments are only 8 bit values
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printHex( (&guide->args)[ arg ] );
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// Only show arg separator if there are args left
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if ( arg + 1 < guide->argCount )
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if ( arg + 1 < CapabilitiesList[ guide->index ].argCount )
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print(",");
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}
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print(")");
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