Revision bc6bc5271ca8c2cbf8107bdf243352e543f64b8e authored by Brian Angeles (Desktop) on 20 March 2023, 22:34:45 UTC, committed by Brian Angeles (Desktop) on 20 March 2023, 22:34:45 UTC
As a first step to generalizing the code, we removed the need to comment/uncomment the appropriate rig-specific parameters file and replace it with a local rig_config.s2s file that is ignored by Git. This way, changes can be made to this simple file without affecting the Github repository at all.
1 parent 3d78fa7
Experiment_HyunGeun_August2020_Step_sima.s2s
'--------------------------------------------------------------------------------
' IMPORT RIG-SPECIFIC PARAMETERS AND UNIVERSAL PARAMETERS
'--------------------------------------------------------------------------------
#include "C:\\Users\\Public\\RaymondLabCode\\Experiment Protocols\\RigChoice.s2s"
#include "C:\\Users\\Public\\RaymondLabCode\\Experiment Protocols\\Parameters_HG_sima.s2s"
'--------------------------------------------------------------------------------
' MAIN PROGRAM
'--------------------------------------------------------------------------------
ToolbarConfig();
'--------------------------------------------------------------------------------
' Toolbar Callbacks
'--------------------------------------------------------------------------------
Func ToolbarIdle%()
'This function calls repeatedly whenever nothing else is happening
'if runExmpt=1, it is used to run a full expmt automatically. -HP
'expmtMode: 0=habit, 1=0x, 2=2x, 3=ipsi stim, 4=contra stim
'test: 0=wait, 1=test, 2=train
' Check a valid sampling view is running
var currView := ViewKind();
if currView <> 0 then
return 1;
endif;
' Keep sine wave from drifting
if MaxTime() > (prevTime + 1/sinHzChair) then
if driftFix = 1 then
driftFix%();
endif;
endif;
'If an experiment is running:
if runExpmt% = 1 then
'Check the time. Seconds is the current time - compare it to the goal time of each segment
if MaxTime() > goalTime then
stepFreq := 1000/((stepLength * 2) + 1000);
docase
' GAP A
case test% = 0 then
SampleKey("0");
goalTime := MaxTime() + 5;
ToolbarInit%(); Yield();
test% := 7;
' GAP B
case test% = 7 then
SampleKey("7");
goalTime := MaxTime() + 5;
ToolbarInit%(); Yield();
' Go to Pre/Post or Train/Test Section
docase
' PRE & POST Tests
case expmtLoc% = 1 then
test% := 1;
' TEST/TRAIN Blocks
case expmtLoc% = 2 then
test% := 2;
' If you have already done the test/train blocks, quit instead.
if rep% = (nBlocks%+1) then
ToolbarQuitExpmt%();
Return(1);
endif
endcase
runFlash(); Yield();
ToolbarInit%(); Yield();
' PRE AND POST TEST
case test% = 1 then
SampleKey("1");
SampleKey("X");
goalTime := MaxTime() + testLength;
sinHzDrum := stepFreq;
sinHzChair := stepFreq;
centerChair := 1;
centerDrum := 1;
test% := 0;
' Keep track of how many PRE/POST tests that you've run
prePostNum := prePostNum + 1;
if prePostNum > 2 then
expmtLoc% := 2;
' This check is for the 'T-35' test
if rep% < nBlocks% then
prePostNum := 1;
endif
else
expmtLoc% := 1;
endif
if expmtMode = 5 then
ToolbarStepOn%();
else
ToolbarSineStart%();
endif;
' BLOCK: TEST
case test% = 2 then
SampleKey("2");
SampleKey("X");
goalTime := MaxTime() + testLength;
sinHzDrum := stepFreq;
sinHzChair := stepFreq;
centerDrum := 1;
testrep% := testrep% + 1;
' Start correct Stim, STEP or SINE
if expmtMode = 5 then
ToolbarStepOn%();
else
ToolbarSineStart%();
endif;
if testrep% = nTestreps% then
test% := 3;
rep% := rep% + 1;
else
test% := 0;
endif;
' BLOCK: TRAIN
case test% = 3 then
SampleKey("3");
SampleKey("x");
SampleKey("X");
goalTime := MaxTime() + runLength;
sinHzDrum := stepFreq;
sinHzChair := stepFreq;
centerDrum := 1;
if rep% < (nBlocks%+1) then
docase
'3 = ipsi, 4 = contra
case expmtMode = 3 or expmtMode = 4 then
ToolbarStimOn%();
'1 = x0, 2 = x2
case expmtMode = 1 or expmtMode = 2 then
ToolbarLightOn%();
'5 = step
case expmtMode = 5 then
ToolbarStepOff%(); Yield();
ToolbarLightOn%(); Yield();
ToolbarStepOn%();
endcase;
else
ToolbarSineStop%();
ToolbarStepOff%();
expmtLoc% := 1;
endif;
if rep% = nBlocks% then
expmtLoc% := 1;
endif
test% := 0;
testrep% := 0;
endcase;
endif;
endif;
Return(1);
End
'--------------------------------------------------------------------------------
'Configure expmt settings window
'--------------------------------------------------------------------------------
Func ToolbarConfigExpmt%()
DlgCreate("Experiment settings"); 'Start new dialog
DlgInteger(1,"Number of run-test blocks",0,100,0,0,1);
DlgInteger(2,"Number of tests per block",1,100,0,0,1); 'set to 0 if not using Chair
DlgReal(3,"Run length (s)",0,5000);
DlgReal(4,"Test length (s)",0,5000);
DlgList(5,"Expmt mode", "habit|x0|x2|ipsi|contra|steps");
DlgInteger(6,"Light flash on?)",0,1,0,0,"0|1");
DlgReal(7,"Test stim and bilat (0 or 1)",0,1);
DlgShow(nBlocks%, nTestreps%, runLength, testLength, expmtMode, flashon%,testStim);
docase
case expmtMode = 0 then 'habit
sinPhDrum := 90;
sinPhChair := 90;
sinAmpChair := 10;
sinAmpDrum := 0;
case expmtMode = 1 then 'x0
sinPhDrum := 90;
sinPhChair := 90;
sinAmpChair := 10;
sinAmpDrum := 10;
case expmtMode = 2 then 'x2
sinPhDrum := -90;
sinPhChair := 90;
sinAmpChair := 10;
sinAmpDrum := 10;
case expmtMode = 3 then 'ipsi
sinPhChair := 90;
sinAmpDrum := 0;
case expmtMode = 4 then 'contra
sinPhChair := -90;
sinAmpDrum := 0;
case expmtMode = 5 then 'steps
StepConfigWindow%();
endcase;
if testStim > 0 then
ToolbarPulseConfig%()
endif;
SetSequencerValues();
Return(1);
End
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