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/* autogenerated from "macros/Sources/READC_f.sci" */
function READC_f() {
READC_f.prototype.define = function READC_f() {
frmt = "d ";
fname = "foo";
lunit = 0;
N = 20;
M = 1;
rpar = [];
tmask = 0;
swap = 0;
offset = 1;
outmask = 1;
ievt = 0;
nout = size(outmask,"*");
ipar = [[length(fname)],[this._str2code[frmt-1]],[ievt],[N],[M],[swap],[offset],[this._str2code[fname-1]],[tmask],[outmask]];
model = scicos_model();
model.sim = list("readc",2);
model.out = nout;
model.evtin = 1;
model.evtout = [];
model.dstate = [[1],[1],[lunit],[zeros(N*M,1)]];
model.ipar = [[length(fname)],[this._str2code[frmt-1]],[ievt],[N],[M],[swap],[offset],[this._str2code[fname-1]],[tmask],[outmask]];
model.blocktype = "d";
model.firing = -1;
model.dep_ut = [false,false];
exprs = [["[]"],[sci2exp(outmask)],[fname],[frmt],[string(M)],[string(N)],[string(offset)],[string(swap)]];
gr_i = [];
this.x = standard_define([4,2],model,exprs,gr_i);
}
READC_f.prototype.details = function READC_f() {
return this.x;
}
READC_f.prototype.get = function READC_f() {
}
READC_f.prototype.set = function READC_f() {
this.x = arg1;
model = this.x.model;
graphics = arg1.graphics;
exprs = graphics.exprs;
out = model.out;
dstate = model.dstate;
ipar = model.ipar;
imask = 9+ipar[1-1];
tmask = ipar[imask-1];
lunit = dstate[3-1];
fname = exprs[3-1];
frmt = exprs[4-1];
while (true) {
[ok,tmask1,outmask,fname1,frmt1,M,N,offset,swap,exprs] = scicos_getvalue([[msprintf(gettext("Set %s block parameters"),"READC_f")],[" "],[gettext("Read from C binary file")]],[[gettext("Time Record Selection")],[gettext("Outputs Record Selection")],[gettext("Input File Name")],[gettext("Input Format")],[gettext("Record Size")],[gettext("Buffer Size")],[gettext("Initial Record Index")],[gettext("Swap Mode (0:No, 1:Yes)")]],list("vec",-1,"vec",-1,"str",1,"str",1,"vec",1,"vec",1,"vec",1,"vec",1),exprs);
if (!ok) {
break;
}
fname1 = pathconvert(stripblanks(fname1),false,true);
frmt1 = stripblanks(frmt1);
fmts = ["s","l","d","f","c","us","ul","uc","ull","uls","ubl","ubs","dl","fl","ll","sl","db","fb","lb","sb"];
nout = size(outmask,"*");
if (prod(size(tmask1))>1) {
block_parameter_error(msprintf(gettext("Wrong value for \'%s\' parameter."),gettext("Time Record Selection")),gettext("Must be a scalar or an empty matrix."));
} else if (and(frmt1!=fmts)) {
block_parameter_error(msprintf(gettext("Wrong value for \'%s\' parameter: %s."),gettext("Input Format"),frmt1),gettext("Valid formats are: "+strcat(fmts,", ")));
} else if (this.alreadyran&&fname1!=fname) {
block_parameter_error(msprintf(gettext("You cannot modify \'%s\' when running"),gettext("Input File Name")),gettext("End current simulation first."));
} else if (N!=ipar[6-1]&&this.alreadyran) {
block_parameter_error(msprintf(gettext("You cannot modify \'%s\' when running."),gettext("Buffer Size")),gettext("End current simulation first"));
} else if (this.alreadyran&&size(tmask1)!=size(tmask)) {
block_parameter_error(msprintf(gettext("You cannot modify \'%s\' when running."),gettext("Time Record Selection")),gettext("End current simulation first."));
} else if (fname1=="") {
block_parameter_error(msprintf(gettext("Wrong value for \'%s\' parameter."),gettext("Input File Name")),gettext("You must provide a file name."));
} else if (M<1) {
block_parameter_error(msprintf(gettext("Wrong value for \'%s\' parameter: %d."),gettext("Record Size"),M),gettext("Strictly positive integer expected."));
} else if (tmask1!=[]&&(tmask1<1||tmask1>M)) {
block_parameter_error(msprintf(gettext("Wrong value for \'%s\' parameter: %d."),gettext("Time Record Selection"),tmask1),msprintf(gettext("Must be in the interval %s."),gettext("[1, Record Size = ")+string(M)+"]"));
} else if (nout==0) {
block_parameter_error(msprintf(gettext("Wrong value for \'%s\' parameter: %d."),gettext("Outputs Record Selection"),nout),gettext("Strictly positive integer expected."));
} else if (nout>M) {
block_parameter_error(msprintf(gettext("Wrong value for \'%s\' parameter: %d."),gettext("Outputs Record Selection"),nout),msprintf(gettext("Must be in the interval %s."),gettext("[1, Record Size = ")+string(M)+"]"));
} else if (max(outmask)>M||min(outmask)<1) {
block_parameter_error(msprintf(gettext("Wrong value for indexes in \'%s\' parameter: %s."),gettext("Outputs Record Selection"),strcat(string(outmask.slice())," ")),msprintf(gettext("Must be in the interval %s."),gettext("[1, Record Size = ")+string(M)+"]"));
} else if (N<1) {
block_parameter_error(msprintf(gettext("Wrong value for \'%s\' parameter: %d."),gettext("Buffer Size"),N),gettext("Strictly positive integer expected."));
} else if (swap!=0&&swap!=1) {
block_parameter_error(msprintf(gettext("Wrong value for \'%s\' parameter: %d."),gettext("Swap Mode"),swap),msprintf(gettext("Must be in the interval %s."),"[0, 1]"));
} else if (offset<1) {
block_parameter_error(msprintf(gettext("Wrong value for \'%s\' parameter: %d."),gettext("Initial Record Index"),offset),gettext("Strictly positive integer expected."));
} else {
if (tmask1==[]) {
ievt = 0;
tmask1 = 0;
outpt = [];
} else {
ievt = 1;
outpt = 1;
}
out = size(outmask,"*");
[model,graphics,ok] = check_io(model,graphics,[],out,1,outpt);
frmt1 = part(frmt1,1,3);
if (ok) {
if (ievt==0) {
model.firing = -1;
} else {
model.firing = 0;
}
ipar = [[length(fname1)],[this._str2code[frmt1-1]],[ievt],[N],[M],[swap],[offset],[this._str2code[fname1-1]],[tmask1],[outmask.slice()]];
if (prod(size(dstate))!=(N*M)+3) {
dstate = [[-1],[-1],[lunit],[zeros(N*M,1)]];
}
model.dstate = dstate;
model.ipar = ipar;
graphics.exprs = exprs;
this.x.graphics = graphics;
this.x.model = model;
break;
}
}
}
}
}
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