pushString: remove unused variables
[nedit-bw.git] / MultipleAssignment.diff
blob6ffcc5f81de5381d27c6efb29cda25e483a2c4c9
1 From: Tony Balinski <ajbj@free.fr>
2 Subject: Assign multiple lvalues in one statement
4 This patch allows you to assign a set of variables in a lvalue list from the
5 content of an array. This has the appearance of a tuple. The keys used to
6 retrieve the values from the array expression on the right are numeric values
7 starting with 1. If a key is missing, your macro will fail.
9 Given the following (implemented as new built-in functions in this patch):
11 define args {
12 return $args
14 define n_args {
15 i = 0;
16 while (i in $1)
17 ++i
18 return i
21 You can assign a list of symbols to the content of such an array using a list
22 assign, thus:
24 (x, y, z) = args(a, b, c)
26 This is equivalent to
28 x = a
29 y = b
30 z = c
32 This technique can be useful for retrieving argument values in your functions:
34 (str, regex, count) = $args
36 or for returning "tuples" from them:
38 define myfunc {
39 ...
40 return args(isOk, message)
42 ...
43 (success, msg) = myfunc()
45 If you need to count the number of variables that can be assigned in this way,
46 use the n_args() function:
48 ...
49 result = myfunc() # we expect result is an array
50 if (n_args(result) >= 2)
51 (success, msg) = result
53 ---
55 source/interpret.c | 23 ++++++++-
56 source/interpret.h | 3 -
57 source/macro.c | 76 ++++++++++++++++++++++++++++++++
58 source/parse.y | 125 +++++++++++++++++++++++++++++++++++++++++++++++++++++
59 4 files changed, 224 insertions(+), 3 deletions(-)
61 diff --quilt old/source/interpret.c new/source/interpret.c
62 --- old/source/interpret.c
63 +++ new/source/interpret.c
64 @@ -382,9 +382,9 @@ Inst *GetPC(void)
66 ** Swap the positions of two contiguous blocks of code. The first block
67 ** running between locations start and boundary, and the second between
68 -** boundary and end.
69 +** boundary and end. Return the moved boundary value.
71 -void SwapCode(Inst *start, Inst *boundary, Inst *end)
72 +Inst *SwapCode(Inst *start, Inst *boundary, Inst *end)
74 #define reverseCode(L, H) \
75 do { register Inst t, *l = L, *h = H - 1; \
76 @@ -394,6 +394,8 @@ void SwapCode(Inst *start, Inst *boundar
77 reverseCode(start, boundary); /* 1 */
78 reverseCode(boundary, end); /* 2 */
79 reverseCode(start, end); /* 3 */
80 + /* new pos of boundary is start + length of old top portion */
81 + return start + (end - boundary);
85 @@ -729,6 +731,23 @@ void SetMacroFocusWindow(WindowInfo *win
89 +** install a list assign (multi-assign) rvalue expression holder into the local
90 +** namespace.
91 +*/
92 +Symbol *InstallMultiAssignExpr(void)
94 + static const char symbolName[] = "list assign expr";
95 + Symbol *sym = LookupSymbol(symbolName);
96 + DataValue value;
97 + value.tag = NO_TAG;
98 + value.val.n = 0;
99 + if (!sym) {
100 + sym = InstallSymbol(symbolName, LOCAL_SYM, value);
102 + return sym;
106 ** install an array iteration symbol
107 ** it is tagged as an integer but holds an array node pointer
109 diff --quilt old/source/interpret.h new/source/interpret.h
110 --- old/source/interpret.h
111 +++ new/source/interpret.h
112 @@ -155,8 +155,9 @@ Symbol *LookupStringConstSymbol(const ch
113 Symbol *InstallStringConstSymbol(const char *str);
114 Symbol *LookupSymbol(const char *name);
115 Symbol *InstallSymbol(const char *name, enum symTypes type, DataValue value);
116 +Symbol *InstallMultiAssignExpr(void);
117 Program *FinishCreatingProgram(AccumulatorData *acc);
118 -void SwapCode(Inst *start, Inst *boundary, Inst *end);
119 +Inst *SwapCode(Inst *start, Inst *boundary, Inst *end);
120 void StartLoopAddrList(void);
121 int AddBreakAddr(Inst *addr);
122 int AddContinueAddr(Inst *addr);
123 diff --quilt old/source/macro.c new/source/macro.c
124 --- old/source/macro.c
125 +++ new/source/macro.c
126 @@ -166,6 +166,10 @@ static void bannerTimeoutProc(XtPointer
127 static Boolean continueWorkProc(XtPointer clientData);
128 static int escapeStringChars(char *fromString, char *toString);
129 static int escapedStringLength(char *string);
130 +static int argsMS(WindowInfo *window, DataValue *argList, int nArgs,
131 + DataValue *result, char **errMsg);
132 +static int nArgsMS(WindowInfo *window, DataValue *argList, int nArgs,
133 + DataValue *result, char **errMsg);
134 static int lengthMS(WindowInfo *window, DataValue *argList, int nArgs,
135 DataValue *result, char **errMsg);
136 static int minMS(WindowInfo *window, DataValue *argList, int nArgs,
137 @@ -421,6 +425,8 @@ static int callMS(WindowInfo *window, Da
139 /* Built-in subroutines and variables for the macro language */
140 static const BuiltInSubrName MacroSubrs[] = {
141 + { "args", argsMS },
142 + { "n_args", nArgsMS },
143 { "length", lengthMS },
144 { "get_range", getRangeMS },
145 { "t_print", tPrintMS },
146 @@ -1813,6 +1819,76 @@ static int escapedStringLength(char *str
150 +** Built-in macro subroutine to generate an args array, eg
151 +** array = args(arg1, arg2, ...)
152 +** return args(arg1, arg2, ...)
153 +** This is done by augmenting the $args array value, located at argList[nArgs],
154 +** then returning that. This function builds an array with non-named arguments
155 +** start at index 1; it is equivalent to
156 +** define args {
157 +** return $args
158 +** }
160 +static int argsMS(WindowInfo *window, DataValue *argList, int nArgs,
161 + DataValue *result, char **errMsg)
163 + DataValue *argsArray = &argList[nArgs];
164 + DataValue *argVal;
165 + int argNum;
167 + if (argsArray->tag != ARRAY_TAG) {
168 + argsArray->tag = ARRAY_TAG;
169 + argsArray->val.arrayPtr = ArrayNew();
172 + for (argNum = 1; argNum <= nArgs; ++argNum) {
173 + argVal = &argList[argNum - 1];
174 + if (!ArrayInsert(argsArray, AllocStringOfNumber(argNum), argVal)) {
175 + M_FAILURE("argument array insertion failure in %s");
179 + *result = *argsArray;
180 + return True;
184 +** Built-in macro subroutine to count the number of args in an args array, eg
185 +** n = n_args(argsArray)
186 +** This is done by counting how many values in the array have consecutive
187 +** numeric indices starting at 1, copying $n_args relationship with $args.
188 +** The result is also the last valid index in the sequence.
189 +** This function is equivalent to
190 +** define n_args {
191 +** for (i = 0; i in $1; ++i)
192 +** dummy = 0
193 +** return i
194 +** }
196 +static int nArgsMS(WindowInfo *window, DataValue *argList, int nArgs,
197 + DataValue *result, char **errMsg)
199 + DataValue *argsArray = &argList[0];
200 + DataValue val;
202 + if (nArgs != 1 || argsArray->tag != ARRAY_TAG) {
203 + M_FAILURE("%n can only take one argument, an array");
205 + else {
206 + int argNum = 0;
207 + do {
208 + ++argNum;
209 + } while (ArrayGet(argsArray, longAsStr(argNum), &val));
211 + /* the above loop terminates with argNum 1 beyond the last index */
212 + result->tag = INT_TAG;
213 + result->val.n = argNum - 1;
216 + return True;
220 ** Built-in macro subroutine for getting the length of a string
222 static int lengthMS(WindowInfo *window, DataValue *argList, int nArgs,
223 diff --quilt old/source/parse.y new/source/parse.y
224 --- old/source/parse.y
225 +++ new/source/parse.y
226 @@ -82,6 +82,15 @@ static int nextSymIsField = 0;
227 /* set to 1 when we don't want a full symbol, just a name (string) for a
228 field name following a '.' */
231 +** Positions holder for instruction reordering of code generated for the
232 +** left-hand lvalue list in a multi-assignment statement.
234 +typedef struct LVinst {
235 + Inst *start, *mid, *next;
236 + int nArgs;
237 +} LVinst;
241 %union {
242 @@ -89,6 +98,7 @@ static int nextSymIsField = 0;
243 Inst *inst;
244 int num;
245 enum operations oper;
246 + LVinst lvinst;
247 struct {
248 AccumulatorData *acc;
249 Symbol *sym;
250 @@ -105,6 +115,7 @@ static int nextSymIsField = 0;
251 %type <oper> operassign incrdecr
252 %token <oper> '=' ADDEQ SUBEQ MULEQ DIVEQ MODEQ ANDEQ OREQ
253 %token <oper> INCR DECR
254 +%type <lvinst> lvlist lventry
256 %nonassoc IF_NO_ELSE
257 %nonassoc ELSE
258 @@ -328,6 +339,120 @@ simpstmt: /* simple variable assignmen
259 ADD_OP(OP_ARRAY_ASSIGN); ADD_IMMED(1);
261 | funccall
262 + | lvlistexpr
266 +** Implementing a multi-assignment to a list of lvalues
268 +** Each accepting lvalue requires a push phase P and an assign phase A.
270 +** For arrays, P includes pushing the indices and the destination array value.
271 +** P always also includes pushing N, the position of the lval in the list, i.e.
272 +** the index into the r.h.s. array expression supplying values.
274 +** The assign phase uses N (on the stack) and the stored result E of the source
275 +** array expression - this gives the indexed r.h.s. value to assign. Then, if
276 +** the destination is an array element, the destination array and indices are
277 +** retrieved from the stack and the assignment performed.
279 +** Given "(a, b, c) = e", we need to end up with the command sequence:
280 +** Pc Pb Pa Ee Aa Ab Ac
281 +** However, we have to generate Px and Ax together in the parse. Hence we
282 +** must reorder, using PC mark positions Mx. For the example, we generate:
283 +** read a: M0[Pa]M1[Aa]Mt here Mt is the current GetPC() value
284 +** read b: M0[Pa]M1[Aa]M2[Pb]M3[Ab]Mt now swap(M0, M2, M3)
285 +** M0[Pb Pa]M1[Aa Ab]Mt
286 +** and c: M0[Pb Pa]M1[Aa Ab]M2[Pc]M3[Ac]Mt swap(M0, M2, M3)
287 +** M0[Pc Pb Pa]M1[Aa Ab Ac]Mt
288 +** then e: M0[Pc Pb Pa]M1[Aa Ab Ac]M2[Ee]Mt swap(M1, M2, Mt)
289 +** [Pc Pb Pa][Ee][Aa Ab Ac]
290 +** which is what we want. At each swap, we must retain intermediate positions.
291 +** Below for lvlist, M0 is $$.start, M1 is $$.mid, M2 is $$.next. lventry's $$
292 +** gives the mid value between the P and A phases (M1).
294 +lvlistexpr: '(' lvlist ')' blank '=' blank expr {
295 + /* store expression value */
296 + ADD_OP(OP_ASSIGN); ADD_SYM(InstallMultiAssignExpr());
297 + /* swap expression evaluation code into position */
298 + SwapCode($2.mid, $2.next, GetPC());
302 +** lvlist: code for pushing the expression's index is generated here, after the code
303 +** for assigning to the lvalue. In other words, the Px portion is split, with
304 +** the assign code in front of the push index code. This needs to be swapped.
305 +** Only then do we have the situation described for overall list assignment.
307 +lvlist: lventry {
308 + /* start case */
309 + $$.nArgs = $1.nArgs;
310 + /* add code to push the rvalue expression index needed */
311 + ADD_OP(OP_PUSH_IMMED); ADD_IMMED($$.nArgs);
312 + $$.start = $1.start;
313 + $$.next = GetPC();
314 + /* swap this code in front of the lvalue assignment code */
315 + $$.mid = SwapCode($1.mid, $1.next, $$.next);
317 + | lvlist ',' blank lventry {
318 + /* recursive step case - starts similarly */
319 + $$.nArgs = $1.nArgs + $4.nArgs;
320 + /* add code to push the rvalue expression index needed */
321 + ADD_OP(OP_PUSH_IMMED); ADD_IMMED($$.nArgs);
322 + $$.start = $1.start;
323 + $$.next = GetPC();
324 + /* swap this code in front of the lvalue assignment code */
325 + $4.mid = SwapCode($4.mid, $4.next, $$.next);
326 + /*
327 + ** now swap Px code to midpoint and change midpoint
328 + ** $1.start[P...]$1.mid[A...]$1.next[Px]$4.mid[Ax]$$.next --->
329 + ** $1.start[Px][P...]$1.mid[A...]$4.mid[Ax]$$.next
330 + */
331 + SwapCode($1.start, $1.next, $4.mid);
332 + $$.start = $1.start; /* keep start point */
333 + $$.mid = $1.mid + ($4.mid - $1.next); /* adjust mid point */
336 +/* lventry's value is the PC position between the Px and Ax parts */
337 +lventry: mark SYMBOL {
338 + $$.nArgs = 1;
339 + $$.start = $1;
340 + /* Push code: null */
341 + $$.mid = GetPC();
342 + /* Assign code: stack: N, ... */
343 + ADD_OP(OP_PUSH_SYM); ADD_SYM(InstallMultiAssignExpr());
344 + /* stack: E, N, ... */
345 + ADD_OP(OP_SWAP_TOP2); /* stack: N, E, ... */
346 + ADD_OP(OP_ARRAY_REF); ADD_IMMED(1); /* stack: E[N] ... */
347 + ADD_OP(OP_ASSIGN); ADD_SYM($2);
348 + $$.next = GetPC();
350 + | mark initarraylv '[' arglist ']' {
351 + $$.nArgs = 1;
352 + $$.start = $1;
353 + /* Push code dealt with in "initarraylv '[' arglist ']'" */
354 + $$.mid = GetPC();
355 + /* Assign code: stack: N, ... */
356 + ADD_OP(OP_PUSH_SYM); ADD_SYM(InstallMultiAssignExpr());
357 + /* stack: E, N, ... */
358 + ADD_OP(OP_SWAP_TOP2); /* stack: N, E, ... */
359 + ADD_OP(OP_ARRAY_REF); ADD_IMMED(1); /* stack: E[N] ... */
360 + ADD_OP(OP_ARRAY_ASSIGN); ADD_IMMED($4);
361 + $$.next = GetPC();
363 + | mark initarraylv dot field {
364 + $$.nArgs = 1;
365 + $$.start = $1;
366 + /* Push code dealt with in "initarraylv dot field" */
367 + $$.mid = GetPC();
368 + /* Assign code: stack: N, ... */
369 + ADD_OP(OP_PUSH_SYM); ADD_SYM(InstallMultiAssignExpr());
370 + /* stack: E, N, ... */
371 + ADD_OP(OP_SWAP_TOP2); /* stack: N, E, ... */
372 + ADD_OP(OP_ARRAY_REF); ADD_IMMED(1); /* stack: E[N] ... */
373 + ADD_OP(OP_ARRAY_ASSIGN); ADD_IMMED(1);
374 + $$.next = GetPC();
378 evalsym: SYMBOL {