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#include <u.h>
#include <libc.h>
#include <bio.h>
#include "apl9.h"
Statement *
lexline(Rune *line, int toplevel)
{
int offset = 0;
int len = runestrlen(line);
Statement *stmt = emalloc(sizeof(Statement));
stmt->ntoks = 0;
stmt->toks = mallocz(sizeof(Datum) * MAX_LINE_TOKENS, 1);
stmt->guard = nil;
stmt->next = nil;
while(offset < len){
Rune *p;
if(isspacerune(line[offset])){
offset++;
continue;
}else if(runestrchr(L"←⋄⍝⍬", line[offset])){
switch(line[offset]){
case L'←': stmt->toks[stmt->ntoks].tag = ArrowTag; break;
case L'⋄': stmt->next = lexline(&line[offset+1], toplevel); goto end;
case L'⍝': goto end;
case L'⍬':
stmt->toks[stmt->ntoks].tag = ArrayTag;
stmt->toks[stmt->ntoks].array = allocarray(AtypeInt, 1, 0);
stmt->toks[stmt->ntoks].array->shape[0] = 0;
break;
}
offset++;
}else if(!toplevel && line[offset] == ':'){
Rune buf[MAX_LINE_LENGTH];
Rune *p = buf;
offset++;
while(line[offset] != L'⋄' && offset < len){
*p = line[offset];
p++;
offset++;
}
*p = 0;
stmt->guard = lexline(buf, toplevel);
stmt->ntoks--;
}else if(line[offset] == '{'){
int unclosed = 1;
Rune buf[MAX_LINE_LENGTH];
Rune *p = buf;
offset++;
while((line[offset] != '}' || unclosed > 1) && offset < len){
if(line[offset] == '{')
unclosed++;
else if(line[offset] == '}')
unclosed--;
*p = line[offset];
p++;
offset++;
}
if(line[offset] != '}')
goto syntax_error;
*p = 0;
offset++;
stmt->toks[stmt->ntoks].tag = FunctionTag;
stmt->toks[stmt->ntoks].func.type = FunctypeDfn;
stmt->toks[stmt->ntoks].func.dfn = runestrdup(buf);
}else if(line[offset] == '('){
int unclosed = 1;
Rune buf[MAX_LINE_LENGTH];
Rune *p = buf;
offset++;
while((line[offset] != ')' || unclosed > 1) && offset < len){
if(line[offset] == '(')
unclosed++;
else if(line[offset] == ')')
unclosed--;
*p = line[offset];
p++;
offset++;
}
if(line[offset] != ')')
goto syntax_error;
*p = 0;
offset++;
stmt->toks[stmt->ntoks].tag = LParTag;
stmt->toks[stmt->ntoks].stmt = *lexline(buf, toplevel);
stmt->ntoks++;
stmt->toks[stmt->ntoks].tag = RParTag;
}else if(p = runestrchr(primfuncnames, line[offset])){
stmt->toks[stmt->ntoks].tag = FunctionTag;
stmt->toks[stmt->ntoks].func.type = FunctypePrim;
stmt->toks[stmt->ntoks].func.code = p-primfuncnames;
offset++;
}else if(p = runestrchr(primmonopnames, line[offset])){
stmt->toks[stmt->ntoks].tag = MonadicOpTag;
stmt->toks[stmt->ntoks].operator.type = OperatortypePrim;
stmt->toks[stmt->ntoks].operator.dyadic = 0;
stmt->toks[stmt->ntoks].operator.code = p-primmonopnames;
offset++;
}else if(p = runestrchr(primdyadopnames, line[offset])){
stmt->toks[stmt->ntoks].tag = DyadicOpTag;
stmt->toks[stmt->ntoks].operator.type = OperatortypePrim;
stmt->toks[stmt->ntoks].operator.dyadic = 1;
stmt->toks[stmt->ntoks].operator.code = p-primdyadopnames;
offset++;
}else if(p = runestrchr(primhybridnames, line[offset])){
stmt->toks[stmt->ntoks].tag = HybridTag;
stmt->toks[stmt->ntoks].hybrid = p-primhybridnames;
offset++;
}else if(isdigitrune(line[offset]) || (line[offset] == L'¯' && isdigitrune(line[offset+1]))){
char buf[64];
char *p = buf;
int floating = 0;
if(line[offset] == L'¯'){
*p++ = '-';
offset++;
}
get_digits:
while(isdigitrune(line[offset]))
p += runetochar(p, &line[offset++]);
if(!floating && line[offset] == '.'){
p += runetochar(p, &line[offset++]);
floating = 1;
goto get_digits;
}
*p = 0;
stmt->toks[stmt->ntoks].tag = ArrayTag;
stmt->toks[stmt->ntoks].array = floating ? mkscalarfloat(atof(buf)) : mkscalarint(atoll(buf));
}else if(runestrchr(L"⍺⍵", line[offset])){
Rune *name = L"?";
name[0] = line[offset];
stmt->toks[stmt->ntoks].tag = NameTag;
stmt->toks[stmt->ntoks].symbol = getsym(currentsymtab, name);
offset++;
}else if(isalpharune(line[offset])){
Rune buf[64];
Rune *p = buf;
while(isalpharune(line[offset]) || isdigitrune(line[offset])){
*p = line[offset];
p++;
offset++;
}
*p = 0;
stmt->toks[stmt->ntoks].tag = NameTag;
stmt->toks[stmt->ntoks].symbol = getsym(currentsymtab, buf);
}else if(runestrchr(L"⎕⍞", line[offset])){
/* quad names */
Rune buf[64];
Rune *p = buf;
*p++ = line[offset++];
while(isalpharune(line[offset]))
*p++ = toupperrune(line[offset++]);
*p = 0;
int valid = 0;
for(int i = 0; quadnames[i].name != nil && !valid; i++){
if(runestrcmp(buf, quadnames[i].name) != 0)
continue;
valid = 1;
stmt->toks[stmt->ntoks] = quadnamedatum(quadnames[i]);
}
if(!valid){
offset -= runestrlen(buf);
goto syntax_error;
}
}else if(line[offset] == '\''){
Rune buf[1024]; /* stupid limit on literal string lengths */
Rune *b = buf;
int done = 0;
offset++;
while(!done && offset < len){
if(line[offset] == '\'' && line[offset+1] != '\''){
*b = 0;
done = 1;
}else if(line[offset] == '\'' && line[offset+1] == '\''){
*b++ = '\'';
offset++;
}else
*b++ = line[offset];
offset++;
}
if(!done){
offset = offset - (b-buf);
goto syntax_error;
}
stmt->toks[stmt->ntoks].tag = ArrayTag;
if(runestrlen(buf) == 1)
stmt->toks[stmt->ntoks].array = mkscalarrune(buf[0]);
else
stmt->toks[stmt->ntoks].array = mkrunearray(buf);
}else{
Rune *err;
syntax_error:
err = runesmprint("Can't lex: %S", &line[offset]);
free(stmt->toks);
free(stmt);
throwerror(err, ESyntax);
}
stmt->ntoks++;
}
end:
stmt->toks = realloc(stmt->toks, sizeof(Datum) * stmt->ntoks);
return stmt;
}
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