6962a7d0ee89aca87a6cb838bba555e0c8feb451
1 /************************************************************************
2 ************************************************************************
4 Copyright (C) 2003-2004 GRAME, Centre National de Creation Musicale
5 ---------------------------------------------------------------------
6 This program is free software; you can redistribute it and/or modify
7 it under the terms of the GNU General Public License as published by
8 the Free Software Foundation; either version 2 of the License, or
9 (at your option) any later version.
11 This program is distributed in the hope that it will be useful,
12 but WITHOUT ANY WARRANTY; without even the implied warranty of
13 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 GNU General Public License for more details.
16 You should have received a copy of the GNU General Public License
17 along with this program; if not, write to the Free Software
18 Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
19 ************************************************************************
20 ************************************************************************/
22 /************************************************************************
23 ************************************************************************
25 Copyright (C) 2003-2004 GRAME, Centre National de Creation Musicale
26 ---------------------------------------------------------------------
27 A small typing system that computes the "order" of a signal :
28 0 = numerical constant
29 1 = non-numerical constants (FConst)
32 This order will be used to put expressions in normal form.
34 Contrary to the full type system, it doesn't require environments
35 or special treatments for recursions
36 ************************************************************************
37 ************************************************************************/
42 #include "sigprint.hh"
45 #include "sigorderrules.hh"
48 Tree ORDERPROP
= tree(symbol("OrderProp"));
50 static int infereSigOrder(Tree sig
);
53 * retrieve the order annotation (between 0 and 3) of a signal.
54 * (compute the order the first time). Orders have the following meanings
57 * 2 : user interface values
59 * @param sig the signal we want to know the order
60 * @return the order number
62 int getSigOrder(Tree sig
)
65 if (getProperty(sig
, ORDERPROP
, tt
)) {
68 int order
= infereSigOrder(sig
);
69 setProperty(sig
, ORDERPROP
, tree(order
));
74 // shortcut for order inference algorithm
80 * Infere the order of a term according to its components
81 * @param sig the signal to analyze
82 * @return the order of sig
84 static int infereSigOrder(Tree sig
)
88 Tree sel
, s1
, s2
, s3
, s4
, ff
, id
, ls
, l
, x
, y
, var
, body
, type
, name
, file
;
90 xtended
* xt
= (xtended
*) getUserData(sig
);
96 for (int i
=0; i
<sig
->arity(); i
++) { args
.push_back( O(sig
->branch(i
)) ); }
97 return xt
->infereSigOrder(args
);
101 else if (isSigInt(sig
, &i
)) return 0;
103 else if (isSigReal(sig
, &r
)) return 0;
105 else if (isSigInput(sig
, &i
)) return 3;
107 else if (isSigOutput(sig
, &i
, s1
)) return 3;
109 else if (isSigDelay1(sig
, s1
)) return 3;
111 else if (isSigPrefix(sig
, s1
, s2
)) return 3;
113 else if (isSigFixDelay(sig
, s1
, s2
)) return 3;
115 else if (isSigBinOp(sig
, &i
, s1
, s2
)) return max(O(s1
),O(s2
));
117 else if (isSigIntCast(sig
, s1
)) return O(s1
);
119 else if (isSigFloatCast(sig
, s1
)) return O(s1
);
121 else if (isSigFFun(sig
,ff
,ls
) && isNil(ls
)) return 1;
123 else if (isSigFFun(sig
, ff
, ls
)) return max(1,O(ls
));
125 else if (isSigFConst(sig
,type
,name
,file
)) return 1;
127 else if (isSigFVar(sig
,type
,name
,file
)) return 2;
129 else if (isSigButton(sig
)) return 2;
131 else if (isSigCheckbox(sig
)) return 2;
133 else if (isSigVSlider(sig
)) return 2;
135 else if (isSigHSlider(sig
)) return 2;
137 else if (isSigNumEntry(sig
)) return 2;
139 else if (isSigHBargraph(sig
, l
, x
, y
, s1
)) return O(s1
);
141 else if (isSigVBargraph(sig
, l
, x
, y
, s1
)) return O(s1
);
143 else if (isSigAttach(sig
, s1
, s2
)) return O(s1
);
145 else if (isRec(sig
, var
, body
)) exit(1); //return 3; // not supposed to happen.
147 else if (isRef(sig
, var
)) exit(1); //return 3; // not supposed to happen.
149 else if (isProj(sig
, &i
, s1
)) return 3;
151 else if (isSigTable(sig
, id
, s1
, s2
)) return 3;
153 else if (isSigWRTbl(sig
, id
, s1
, s2
, s3
)) return 3;
155 else if (isSigRDTbl(sig
, s1
, s2
)) return 3;
157 else if (isSigDocConstantTbl(sig
, s1
, s2
)) return 3;
159 else if (isSigDocWriteTbl(sig
,s1
,s2
,s3
,s4
)) return 3;
161 else if (isSigDocAccessTbl(sig
,s1
,s2
)) return 3;
163 else if (isSigGen(sig
, s1
)) return 3;
165 else if (isSigSelect2(sig
,sel
,s1
,s2
)) return 3;
167 else if (isSigSelect3(sig
,sel
,s1
,s2
,s3
)) return 3;
169 else if (isSigVectorize(sig
,s1
,s2
)) return 3;
170 else if (isSigSerialize(sig
,s1
)) return 3;
171 else if (isSigVectorAt(sig
,s1
,s2
)) return 3;
172 else if (isSigConcat(sig
,s1
,s2
)) return 3;
174 else if (isSigUpSample(sig
,s1
,s2
)) return 3;
175 else if (isSigDownSample(sig
,s1
,s2
)) return 3;
177 else if (isList(sig
))
180 while (isList(sig
)) { int x
= O(hd(sig
)); if (x
> r
) r
= x
; sig
= tl(sig
); }
184 // unrecognized signal here
185 fprintf(stderr
, "ERROR infering signal order : unrecognized signal : "); print(sig
, stderr
); fprintf(stderr
, "\n");