Fonction d'interfaçage
fr
EXTRACTBITS
function [x,y,typ]=EXTRACTBITS(job,arg1,arg2)
x=[];y=[];typ=[]
select job
case 'plot' then
if (size(arg1.model.ipar,'*')~=4) then numb=[];
else numb=arg1.model.ipar(3)
end
VOP=['Upper Half','Lower Half','Upper End','Lower End',' '+string(arg1.graphics.exprs(3))+' ']
OPER=VOP(evstr( arg1.graphics.exprs(2)))
standard_draw(arg1)
case 'getinputs' then
[x,y,typ]=standard_inputs(arg1)
case 'getoutputs' then
[x,y,typ]=standard_outputs(arg1)
case 'getorigin' then
[x,y]=standard_origin(arg1)
case 'set' then
x=arg1;
graphics=arg1.graphics;exprs=graphics.exprs
model=arg1.model;
while %t do
[ok,Datatype,rule,bit,scal,exprs]=getvalue(...
[' Set parameters';'';'-Dataype : set the integer type';..
' 3=int32, 4=int16, 5=int8, ...';..
'-Bits to extract :';' 1=Upper Half';' 2=Lower Half';..
' 3=Range from MSB';' 4=Range to LSB';' 5=Range of bits';..
'-Number of bits or index of bit :';' case range of bits:[start,end],0 is LSB';..
'-Treat bit field as an integer (0=no 1=yes)';''],..
['Datatype';..
'Bits to extract';..
'Number of bits or index of bit';..
'Treat bit field as an integer'],..
list('vec',1,'vec',1,'vec',-1,'vec',1),exprs)
if ~ok then break,end
if (rule<1)|(rule>5) then message('Incorrect index '+string(rule)+' ; must be 1 to 5.');ok=%f;end
in=[model.in model.in2];bit=int(bit);rule=int(rule);
if (or(bit(:)<0)) then
message('Incorrect index '+string(min(bit))+' ; must be >0.');ok=%f;
end
if (rule==3)|(rule==4) then
if (size(bit,'*')~=1) then message('Index of bit must be a single value');ok=%f;
else numb=bit;
end
elseif (rule==5)
if (size(bit,'*')~=2) then message('Must have this form:[start,end]');ok=%f;
else numb=bit(2)-bit(1);
end ;
else bit=0;numb=[]
end
if (Datatype==3 | Datatype==6) then
if or(bit(:) > 31) then message ('Incorrect index '+string(max(bit))+' ; must be <32.');ok=%f;
end
select rule
case 1 then
select scal
case 0 then model.sim=list('extract_bit_32_UH0',4)
case 1 then
select Datatype
case 3 then model.sim=list('extract_bit_32_UH1',4)
case 6 then model.sim=list('extract_bit_u32_UH1',4)
end
end
case 2 then
model.sim=list('extract_bit_32_LH',4)
case 3 then
select scal
case 0 then model.sim=list('extract_bit_32_MSB0',4)
case 1 then
select Datatype
case 3 then model.sim=list('extract_bit_32_MSB1',4)
case 6 then model.sim=list('extract_bit_u32_MSB1',4)
end
end
case 4 then
model.sim=list('extract_bit_32_LSB',4)
case 5 then
select scal
case 0 then model.sim=list('extract_bit_32_RB0',4)
case 1 then
select Datatype
case 3 then model.sim=list('extract_bit_32_RB1',4)
case 6 then model.sim=list('extract_bit_u32_RB1',4)
end
end
end
elseif (Datatype==4 | Datatype==7) then
if or(bit(:) > 15) then message ('Incorrect index '+string(max(bit))+' ; must be <16.');ok=%f;
end
select rule
case 1 then
select scal
case 0 then model.sim=list('extract_bit_16_UH0',4)
case 1 then
select Datatype
case 4 then model.sim=list('extract_bit_16_UH1',4)
case 7 then model.sim=list('extract_bit_u16_UH1',4)
end
end
case 2 then
model.sim=list('extract_bit_16_LH',4)
case 3 then
select scal
case 0 then model.sim=list('extract_bit_16_MSB0',4)
case 1 then
select Datatype
case 4 then model.sim=list('extract_bit_16_MSB1',4)
case 7 then model.sim=list('extract_bit_u16_MSB1',4)
end
end
case 4 then
model.sim=list('extract_bit_16_LSB',4)
case 5 then
select scal
case 0 then model.sim=list('extract_bit_16_RB0',4)
case 1 then
select Datatype
case 4 then model.sim=list('extract_bit_16_RB1',4)
case 7 then model.sim=list('extract_bit_u16_RB1',4)
end
end
end
elseif (Datatype==5 | Datatype==8) then
if or(bit(:) > 7) then message ('Incorrect index '+string(max(bit))+' ; must be <8.');ok=%f;
end
select rule
case 1 then
select scal
case 0 then model.sim=list('extract_bit_8_UH0',4)
case 1 then
select Datatype
case 5 then model.sim=list('extract_bit_8_UH1',4)
case 8 then model.sim=list('extract_bit_u8_UH1',4)
end
end
case 2 then
model.sim=list('extract_bit_8_LH',4)
case 3 then
select scal
case 0 then model.sim=list('extract_bit_8_MSB0',4)
case 1 then
select Datatype
case 5 then model.sim=list('extract_bit_8_MSB1',4)
case 8 then model.sim=list('extract_bit_u8_MSB1',4)
end
end
case 4 then
model.sim=list('extract_bit_8_LSB',4)
case 5 then
select scal
case 0 then model.sim=list('extract_bit_8_RB0',4)
case 1 then
select Datatype
case 5 then model.sim=list('extract_bit_8_RB1',4)
case 8 then model.sim=list('extract_bit_u8_RB1',4)
end
end
end
else message ('Datatype '+string(Datatype)+' is not supported ; It must be 3 to 8');ok=%f;
end
if ok then
it=Datatype
ot=Datatype
out=[1 1]
[model,graphics,ok]=set_io(model,graphics,list(in,it),list(out,ot),[],[])
end
if ok then
graphics.exprs=exprs;
model.ipar=[int(bit(:));int(numb(:))];
x.graphics=graphics;x.model=model;
break
end
end
case 'define' then
numb=[];
model=scicos_model()
model.sim=list('extract_bit_32_UH0',4)
model.in=1
model.in2=1
model.out=1
model.out2=1;
model.intyp=3
model.outtyp=3
model.ipar=[0,numb]
model.blocktype='c'
model.dep_ut=[%t %f]
exprs=[sci2exp(3);sci2exp(1);sci2exp(0);sci2exp(0)]
gr_i=['xstringb(orig(1),orig(2),['' Extract ''+string(numb)+'' Bits'';OPER],sz(1),sz(2),''fill'');']
x=standard_define([3 2],model,exprs,gr_i)
end
endfunction