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Updating PartialLayer code to support varying counter widths.

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- For both uC architecture differences and RAM saving
This commit is contained in:
Jacob Alexander 2014-09-11 11:17:17 -07:00
parent 3a07b4bdcd
commit cb37c82330
2 changed files with 54 additions and 54 deletions
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4
Macro/PartialMap/kll.h
View File

@ -38,8 +38,8 @@
// Or to allow for nearly infinite states. // Or to allow for nearly infinite states.
// TODO Make selectable from layout variable // TODO Make selectable from layout variable
//typedef uint32_t var_uint_t; //typedef uint32_t var_uint_t;
typedef uint16_t var_uint_t; //typedef uint16_t var_uint_t;
//typedef uint8_t var_uint_t; typedef uint8_t var_uint_t;
// - NOTE - // - NOTE -
// Native pointer length // Native pointer length

104
Macro/PartialMap/macro.c
View File

@ -27,7 +27,7 @@
// Keymaps // Keymaps
#include "usb_hid.h" #include "usb_hid.h"
#include <defaultMap.h> //#include <defaultMap.h>
#include "templateKeymap.h" // TODO Use actual generated version #include "templateKeymap.h" // TODO Use actual generated version
//#include "generatedKeymap.h" // TODO Use actual generated version //#include "generatedKeymap.h" // TODO Use actual generated version
@ -108,7 +108,7 @@ uint8_t macroDebugMode = 0;
uint8_t macroPauseMode = 0; uint8_t macroPauseMode = 0;
// Macro step counter - If non-zero, the step counter counts down every time the macro module does one processing loop // Macro step counter - If non-zero, the step counter counts down every time the macro module does one processing loop
unsigned int macroStepCounter = 0; uint16_t macroStepCounter = 0;
// Key Trigger List Buffer // Key Trigger List Buffer
@ -120,18 +120,18 @@ uint8_t macroTriggerListBufferSize = 0;
// TODO, figure out a good way to scale this array size without wasting too much memory, but not rejecting macros // TODO, figure out a good way to scale this array size without wasting too much memory, but not rejecting macros
// Possibly could be calculated by the KLL compiler // Possibly could be calculated by the KLL compiler
// XXX It may be possible to calculate the worst case using the KLL compiler // XXX It may be possible to calculate the worst case using the KLL compiler
unsigned int macroTriggerMacroPendingList[ TriggerMacroNum ] = { 0 }; uint16_t macroTriggerMacroPendingList[ TriggerMacroNum ] = { 0 };
unsigned int macroTriggerMacroPendingListSize = 0; uint16_t macroTriggerMacroPendingListSize = 0;
// Layer Index Stack // Layer Index Stack
// * When modifying layer state and the state is non-0x0, the stack must be adjusted // * When modifying layer state and the state is non-0x0, the stack must be adjusted
unsigned int macroLayerIndexStack[ LayerNum + 1 ] = { 0 }; uint16_t macroLayerIndexStack[ LayerNum + 1 ] = { 0 };
unsigned int macroLayerIndexStackSize = 0; uint16_t macroLayerIndexStackSize = 0;
// Pending Result Macro Index List // Pending Result Macro Index List
// * Any result macro that needs processing from a previous macro processing loop // * Any result macro that needs processing from a previous macro processing loop
unsigned int macroResultMacroPendingList[ ResultMacroNum ] = { 0 }; uint16_t macroResultMacroPendingList[ ResultMacroNum ] = { 0 };
unsigned int macroResultMacroPendingListSize = 0; uint16_t macroResultMacroPendingListSize = 0;
@ -142,7 +142,7 @@ void Macro_layerState( uint8_t state, uint8_t stateType, uint16_t layer, uint8_t
{ {
// Is layer in the LayerIndexStack? // Is layer in the LayerIndexStack?
uint8_t inLayerIndexStack = 0; uint8_t inLayerIndexStack = 0;
unsigned int stackItem = 0; uint16_t stackItem = 0;
while ( stackItem < macroLayerIndexStackSize ) while ( stackItem < macroLayerIndexStackSize )
{ {
// Flag if layer is already in the LayerIndexStack // Flag if layer is already in the LayerIndexStack
@ -209,7 +209,7 @@ void Macro_layerState_capability( uint8_t state, uint8_t stateType, uint8_t *arg
return; return;
// Get layer index from arguments // Get layer index from arguments
// Cast pointer to uint8_t to unsigned int then access that memory location // Cast pointer to uint8_t to uint16_t then access that memory location
uint16_t layer = *(uint16_t*)(&args[0]); uint16_t layer = *(uint16_t*)(&args[0]);
// Get layer toggle byte // Get layer toggle byte
@ -237,7 +237,7 @@ void Macro_layerLatch_capability( uint8_t state, uint8_t stateType, uint8_t *arg
return; return;
// Get layer index from arguments // Get layer index from arguments
// Cast pointer to uint8_t to unsigned int then access that memory location // Cast pointer to uint8_t to uint16_t then access that memory location
uint16_t layer = *(uint16_t*)(&args[0]); uint16_t layer = *(uint16_t*)(&args[0]);
Macro_layerState( state, stateType, layer, 0x02 ); Macro_layerState( state, stateType, layer, 0x02 );
@ -262,7 +262,7 @@ void Macro_layerLock_capability( uint8_t state, uint8_t stateType, uint8_t *args
return; return;
// Get layer index from arguments // Get layer index from arguments
// Cast pointer to uint8_t to unsigned int then access that memory location // Cast pointer to uint8_t to uint16_t then access that memory location
uint16_t layer = *(uint16_t*)(&args[0]); uint16_t layer = *(uint16_t*)(&args[0]);
Macro_layerState( state, stateType, layer, 0x04 ); Macro_layerState( state, stateType, layer, 0x04 );
@ -286,7 +286,7 @@ void Macro_layerShift_capability( uint8_t state, uint8_t stateType, uint8_t *arg
return; return;
// Get layer index from arguments // Get layer index from arguments
// Cast pointer to uint8_t to unsigned int then access that memory location // Cast pointer to uint8_t to uint16_t then access that memory location
uint16_t layer = *(uint16_t*)(&args[0]); uint16_t layer = *(uint16_t*)(&args[0]);
Macro_layerState( state, stateType, layer, 0x01 ); Macro_layerState( state, stateType, layer, 0x01 );
@ -301,7 +301,7 @@ void Macro_layerShift_capability( uint8_t state, uint8_t stateType, uint8_t *arg
nat_ptr_t *Macro_layerLookup( uint8_t scanCode ) nat_ptr_t *Macro_layerLookup( uint8_t scanCode )
{ {
// If no trigger macro is defined at the given layer, fallthrough to the next layer // If no trigger macro is defined at the given layer, fallthrough to the next layer
for ( unsigned int layerIndex = 0; layerIndex < macroLayerIndexStackSize; layerIndex++ ) for ( uint16_t layerIndex = 0; layerIndex < macroLayerIndexStackSize; layerIndex++ )
{ {
// Lookup Layer // Lookup Layer
Layer *layer = &LayerIndex[ macroLayerIndexStack[ layerIndex ] ]; Layer *layer = &LayerIndex[ macroLayerIndexStack[ layerIndex ] ];
@ -408,10 +408,10 @@ inline void Macro_ledState( uint8_t ledCode, uint8_t state )
inline void Macro_appendResultMacroToPendingList( TriggerMacro *triggerMacro ) inline void Macro_appendResultMacroToPendingList( TriggerMacro *triggerMacro )
{ {
// Lookup result macro index // Lookup result macro index
unsigned int resultMacroIndex = triggerMacro->result; var_uint_t resultMacroIndex = triggerMacro->result;
// Iterate through result macro pending list, making sure this macro hasn't been added yet // Iterate through result macro pending list, making sure this macro hasn't been added yet
for ( unsigned int macro = 0; macro < macroResultMacroPendingListSize; macro++ ) for ( var_uint_t macro = 0; macro < macroResultMacroPendingListSize; macro++ )
{ {
// If duplicate found, do nothing // If duplicate found, do nothing
if ( macroResultMacroPendingList[ macro ] == resultMacroIndex ) if ( macroResultMacroPendingList[ macro ] == resultMacroIndex )
@ -422,7 +422,7 @@ inline void Macro_appendResultMacroToPendingList( TriggerMacro *triggerMacro )
macroResultMacroPendingList[ macroResultMacroPendingListSize++ ] = resultMacroIndex; macroResultMacroPendingList[ macroResultMacroPendingListSize++ ] = resultMacroIndex;
// Lookup scanCode of the last key in the last combo // Lookup scanCode of the last key in the last combo
unsigned int pos = 0; var_uint_t pos = 0;
for ( uint8_t comboLength = triggerMacro->guide[0]; comboLength > 0; ) for ( uint8_t comboLength = triggerMacro->guide[0]; comboLength > 0; )
{ {
pos += TriggerGuideSize * comboLength + 1; pos += TriggerGuideSize * comboLength + 1;
@ -452,8 +452,8 @@ inline uint8_t Macro_isLongResultMacro( ResultMacro *macro )
// Check the second sequence combo length // Check the second sequence combo length
// If non-zero return non-zero (long sequence) // If non-zero return non-zero (long sequence)
// 0 otherwise (short sequence) // 0 otherwise (short sequence)
unsigned int position = 1; var_uint_t position = 1;
for ( unsigned int result = 0; result < macro->guide[0]; result++ ) for ( var_uint_t result = 0; result < macro->guide[0]; result++ )
position += ResultGuideSize( (ResultGuide*)&macro->guide[ position ] ); position += ResultGuideSize( (ResultGuide*)&macro->guide[ position ] );
return macro->guide[ position ]; return macro->guide[ position ];
} }
@ -591,7 +591,7 @@ inline TriggerMacroVote Macro_evalLongTriggerMacroVote( TriggerGuide *key, Trigg
// Evaluate/Update TriggerMacro // Evaluate/Update TriggerMacro
inline TriggerMacroEval Macro_evalTriggerMacro( unsigned int triggerMacroIndex ) inline TriggerMacroEval Macro_evalTriggerMacro( var_uint_t triggerMacroIndex )
{ {
// Lookup TriggerMacro // Lookup TriggerMacro
TriggerMacro *macro = &TriggerMacroList[ triggerMacroIndex ]; TriggerMacro *macro = &TriggerMacroList[ triggerMacroIndex ];
@ -604,7 +604,7 @@ inline TriggerMacroEval Macro_evalTriggerMacro( unsigned int triggerMacroIndex )
} }
// Current Macro position // Current Macro position
unsigned int pos = macro->pos; var_uint_t pos = macro->pos;
// Length of the combo being processed // Length of the combo being processed
uint8_t comboLength = macro->guide[ pos ] * TriggerGuideSize; uint8_t comboLength = macro->guide[ pos ] * TriggerGuideSize;
@ -743,22 +743,22 @@ inline TriggerMacroEval Macro_evalTriggerMacro( unsigned int triggerMacroIndex )
// Evaluate/Update ResultMacro // Evaluate/Update ResultMacro
inline ResultMacroEval Macro_evalResultMacro( unsigned int resultMacroIndex ) inline ResultMacroEval Macro_evalResultMacro( var_uint_t resultMacroIndex )
{ {
// Lookup ResultMacro // Lookup ResultMacro
ResultMacro *macro = &ResultMacroList[ resultMacroIndex ]; ResultMacro *macro = &ResultMacroList[ resultMacroIndex ];
// Current Macro position // Current Macro position
unsigned int pos = macro->pos; var_uint_t pos = macro->pos;
// Length of combo being processed // Length of combo being processed
uint8_t comboLength = macro->guide[ pos ]; uint8_t comboLength = macro->guide[ pos ];
// Function Counter, used to keep track of the combo items processed // Function Counter, used to keep track of the combo items processed
unsigned int funcCount = 0; var_uint_t funcCount = 0;
// Combo Item Position within the guide // Combo Item Position within the guide
unsigned int comboItem = pos + 1; var_uint_t comboItem = pos + 1;
// Iterate through the Result Combo // Iterate through the Result Combo
while ( funcCount < comboLength ) while ( funcCount < comboLength )
@ -811,14 +811,14 @@ inline void Macro_updateTriggerMacroPendingList()
// Iterate over triggerList to see if any TriggerMacros need to be added // Iterate over triggerList to see if any TriggerMacros need to be added
// First item is the number of items in the TriggerList // First item is the number of items in the TriggerList
for ( unsigned int macro = 1; macro < triggerListSize + 1; macro++ ) for ( var_uint_t macro = 1; macro < triggerListSize + 1; macro++ )
{ {
// Lookup trigger macro index // Lookup trigger macro index
unsigned int triggerMacroIndex = triggerList[ macro ]; var_uint_t triggerMacroIndex = triggerList[ macro ];
// Iterate over macroTriggerMacroPendingList to see if any macro in the scancode's // Iterate over macroTriggerMacroPendingList to see if any macro in the scancode's
// triggerList needs to be added // triggerList needs to be added
unsigned int pending = 0; var_uint_t pending = 0;
for ( ; pending < macroTriggerMacroPendingListSize; pending++ ) for ( ; pending < macroTriggerMacroPendingListSize; pending++ )
{ {
// Stop scanning if the trigger macro index is found in the pending list // Stop scanning if the trigger macro index is found in the pending list
@ -865,10 +865,10 @@ inline void Macro_process()
// Tail pointer for macroTriggerMacroPendingList // Tail pointer for macroTriggerMacroPendingList
// Macros must be explicitly re-added // Macros must be explicitly re-added
unsigned int macroTriggerMacroPendingListTail = 0; var_uint_t macroTriggerMacroPendingListTail = 0;
// Iterate through the pending TriggerMacros, processing each of them // Iterate through the pending TriggerMacros, processing each of them
for ( unsigned int macro = 0; macro < macroTriggerMacroPendingListSize; macro++ ) for ( var_uint_t macro = 0; macro < macroTriggerMacroPendingListSize; macro++ )
{ {
switch ( Macro_evalTriggerMacro( macroTriggerMacroPendingList[ macro ] ) ) switch ( Macro_evalTriggerMacro( macroTriggerMacroPendingList[ macro ] ) )
{ {
@ -898,10 +898,10 @@ inline void Macro_process()
// Tail pointer for macroResultMacroPendingList // Tail pointer for macroResultMacroPendingList
// Macros must be explicitly re-added // Macros must be explicitly re-added
unsigned int macroResultMacroPendingListTail = 0; var_uint_t macroResultMacroPendingListTail = 0;
// Iterate through the pending ResultMacros, processing each of them // Iterate through the pending ResultMacros, processing each of them
for ( unsigned int macro = 0; macro < macroResultMacroPendingListSize; macro++ ) for ( var_uint_t macro = 0; macro < macroResultMacroPendingListSize; macro++ )
{ {
switch ( Macro_evalResultMacro( macroResultMacroPendingList[ macro ] ) ) switch ( Macro_evalResultMacro( macroResultMacroPendingList[ macro ] ) )
{ {
@ -953,14 +953,14 @@ inline void Macro_setup()
macroTriggerListBufferSize = 0; macroTriggerListBufferSize = 0;
// Initialize TriggerMacro states // Initialize TriggerMacro states
for ( unsigned int macro = 0; macro < TriggerMacroNum; macro++ ) for ( var_uint_t macro = 0; macro < TriggerMacroNum; macro++ )
{ {
TriggerMacroList[ macro ].pos = 0; TriggerMacroList[ macro ].pos = 0;
TriggerMacroList[ macro ].state = TriggerMacro_Waiting; TriggerMacroList[ macro ].state = TriggerMacro_Waiting;
} }
// Initialize ResultMacro states // Initialize ResultMacro states
for ( unsigned int macro = 0; macro < ResultMacroNum; macro++ ) for ( var_uint_t macro = 0; macro < ResultMacroNum; macro++ )
{ {
ResultMacroList[ macro ].pos = 0; ResultMacroList[ macro ].pos = 0;
ResultMacroList[ macro ].state = 0; ResultMacroList[ macro ].state = 0;
@ -978,7 +978,7 @@ void cliFunc_capList( char* args )
printHex( CapabilitiesNum ); printHex( CapabilitiesNum );
// Iterate through all of the capabilities and display them // Iterate through all of the capabilities and display them
for ( unsigned int cap = 0; cap < CapabilitiesNum; cap++ ) for ( var_uint_t cap = 0; cap < CapabilitiesNum; cap++ )
{ {
print( NL "\t" ); print( NL "\t" );
printHex( cap ); printHex( cap );
@ -998,15 +998,15 @@ void cliFunc_capSelect( char* args )
char* arg2Ptr = args; char* arg2Ptr = args;
// Total number of args to scan (must do a lookup if a keyboard capability is selected) // Total number of args to scan (must do a lookup if a keyboard capability is selected)
unsigned int totalArgs = 2; // Always at least two args var_uint_t totalArgs = 2; // Always at least two args
unsigned int cap = 0; var_uint_t cap = 0;
// Arguments used for keyboard capability function // Arguments used for keyboard capability function
unsigned int argSetCount = 0; var_uint_t argSetCount = 0;
uint8_t *argSet = (uint8_t*)args; uint8_t *argSet = (uint8_t*)args;
// Process all args // Process all args
for ( unsigned int c = 0; argSetCount < totalArgs; c++ ) for ( var_uint_t c = 0; argSetCount < totalArgs; c++ )
{ {
curArgs = arg2Ptr; curArgs = arg2Ptr;
CLI_argumentIsolation( curArgs, &arg1Ptr, &arg2Ptr ); CLI_argumentIsolation( curArgs, &arg1Ptr, &arg2Ptr );
@ -1144,7 +1144,7 @@ void cliFunc_layerList( char* args )
info_msg("Layer List"); info_msg("Layer List");
// Iterate through all of the layers and display them // Iterate through all of the layers and display them
for ( unsigned int layer = 0; layer < LayerNum; layer++ ) for ( uint16_t layer = 0; layer < LayerNum; layer++ )
{ {
print( NL "\t" ); print( NL "\t" );
printHex( layer ); printHex( layer );
@ -1242,7 +1242,7 @@ void cliFunc_macroList( char* args )
info_msg("Pending Trigger Macros: "); info_msg("Pending Trigger Macros: ");
printInt16( (uint16_t)macroTriggerMacroPendingListSize ); printInt16( (uint16_t)macroTriggerMacroPendingListSize );
print(" : "); print(" : ");
for ( unsigned int macro = 0; macro < macroTriggerMacroPendingListSize; macro++ ) for ( var_uint_t macro = 0; macro < macroTriggerMacroPendingListSize; macro++ )
{ {
printHex( macroTriggerMacroPendingList[ macro ] ); printHex( macroTriggerMacroPendingList[ macro ] );
print(" "); print(" ");
@ -1253,7 +1253,7 @@ void cliFunc_macroList( char* args )
info_msg("Pending Result Macros: "); info_msg("Pending Result Macros: ");
printInt16( (uint16_t)macroResultMacroPendingListSize ); printInt16( (uint16_t)macroResultMacroPendingListSize );
print(" : "); print(" : ");
for ( unsigned int macro = 0; macro < macroResultMacroPendingListSize; macro++ ) for ( var_uint_t macro = 0; macro < macroResultMacroPendingListSize; macro++ )
{ {
printHex( macroResultMacroPendingList[ macro ] ); printHex( macroResultMacroPendingList[ macro ] );
print(" "); print(" ");
@ -1272,7 +1272,7 @@ void cliFunc_macroList( char* args )
// Show Trigger to Result Macro Links // Show Trigger to Result Macro Links
print( NL ); print( NL );
info_msg("Trigger : Result Macro Pairs"); info_msg("Trigger : Result Macro Pairs");
for ( unsigned int macro = 0; macro < TriggerMacroNum; macro++ ) for ( var_uint_t macro = 0; macro < TriggerMacroNum; macro++ )
{ {
print( NL ); print( NL );
print("\tT"); print("\tT");
@ -1292,7 +1292,7 @@ void cliFunc_macroProc( char* args )
printInt8( macroPauseMode ); printInt8( macroPauseMode );
} }
void macroDebugShowTrigger( unsigned int index ) void macroDebugShowTrigger( var_uint_t index )
{ {
// Only proceed if the macro exists // Only proceed if the macro exists
if ( index >= TriggerMacroNum ) if ( index >= TriggerMacroNum )
@ -1307,14 +1307,14 @@ void macroDebugShowTrigger( unsigned int index )
print( NL ); print( NL );
// Read the comboLength for combo in the sequence (sequence of combos) // Read the comboLength for combo in the sequence (sequence of combos)
unsigned int pos = 0; var_uint_t pos = 0;
uint8_t comboLength = macro->guide[ pos ]; uint8_t comboLength = macro->guide[ pos ];
// Iterate through and interpret the guide // Iterate through and interpret the guide
while ( comboLength != 0 ) while ( comboLength != 0 )
{ {
// Initial position of the combo // Initial position of the combo
unsigned int comboPos = ++pos; var_uint_t comboPos = ++pos;
// Iterate through the combo // Iterate through the combo
while ( pos < comboLength * TriggerGuideSize + comboPos ) while ( pos < comboLength * TriggerGuideSize + comboPos )
@ -1363,7 +1363,7 @@ void macroDebugShowTrigger( unsigned int index )
} }
} }
void macroDebugShowResult( unsigned int index ) void macroDebugShowResult( var_uint_t index )
{ {
// Only proceed if the macro exists // Only proceed if the macro exists
if ( index >= ResultMacroNum ) if ( index >= ResultMacroNum )
@ -1378,14 +1378,14 @@ void macroDebugShowResult( unsigned int index )
print( NL ); print( NL );
// Read the comboLength for combo in the sequence (sequence of combos) // Read the comboLength for combo in the sequence (sequence of combos)
unsigned int pos = 0; var_uint_t pos = 0;
uint8_t comboLength = macro->guide[ pos++ ]; uint8_t comboLength = macro->guide[ pos++ ];
// Iterate through and interpret the guide // Iterate through and interpret the guide
while ( comboLength != 0 ) while ( comboLength != 0 )
{ {
// Function Counter, used to keep track of the combos processed // Function Counter, used to keep track of the combos processed
unsigned int funcCount = 0; var_uint_t funcCount = 0;
// Iterate through the combo // Iterate through the combo
while ( funcCount < comboLength ) while ( funcCount < comboLength )
@ -1398,7 +1398,7 @@ void macroDebugShowResult( unsigned int index )
print("|"); print("|");
// Display Function Ptr Address // Display Function Ptr Address
printHex( (unsigned int)CapabilitiesList[ guide->index ].func ); printHex( (nat_ptr_t)CapabilitiesList[ guide->index ].func );
print("|"); print("|");
// Display/Lookup Capability Name (utilize debug mode of capability) // Display/Lookup Capability Name (utilize debug mode of capability)
@ -1407,7 +1407,7 @@ void macroDebugShowResult( unsigned int index )
// Display Argument(s) // Display Argument(s)
print("("); print("(");
for ( unsigned int arg = 0; arg < CapabilitiesList[ guide->index ].argCount; arg++ ) for ( var_uint_t arg = 0; arg < CapabilitiesList[ guide->index ].argCount; arg++ )
{ {
// Arguments are only 8 bit values // Arguments are only 8 bit values
printHex( (&guide->args)[ arg ] ); printHex( (&guide->args)[ arg ] );
@ -1489,7 +1489,7 @@ void cliFunc_macroStep( char* args )
CLI_argumentIsolation( args, &arg1Ptr, &arg2Ptr ); CLI_argumentIsolation( args, &arg1Ptr, &arg2Ptr );
// Default to 1, if no argument given // Default to 1, if no argument given
unsigned int count = (unsigned int)numToInt( arg1Ptr ); var_uint_t count = (var_uint_t)numToInt( arg1Ptr );
if ( count == 0 ) if ( count == 0 )
count = 1; count = 1;