diff options
author | Matthieu Herrb <matthieu@cvs.openbsd.org> | 2006-11-25 20:39:09 +0000 |
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committer | Matthieu Herrb <matthieu@cvs.openbsd.org> | 2006-11-25 20:39:09 +0000 |
commit | 2387c426e6dfc2b0a2d0aa5585dbeb580f5ea91e (patch) | |
tree | 12721540663213a17c4c6a294f8f9473621fd503 /app/xedit/lisp/compile.c | |
parent | dc4a2107be04f29ad06d6e60e102370bf68739cd (diff) |
Importing from X.Org 7.2RC2
Diffstat (limited to 'app/xedit/lisp/compile.c')
-rw-r--r-- | app/xedit/lisp/compile.c | 2224 |
1 files changed, 2224 insertions, 0 deletions
diff --git a/app/xedit/lisp/compile.c b/app/xedit/lisp/compile.c new file mode 100644 index 000000000..6058c67a0 --- /dev/null +++ b/app/xedit/lisp/compile.c @@ -0,0 +1,2224 @@ +/* + * Copyright (c) 2002 by The XFree86 Project, Inc. + * + * Permission is hereby granted, free of charge, to any person obtaining a + * copy of this software and associated documentation files (the "Software"), + * to deal in the Software without restriction, including without limitation + * the rights to use, copy, modify, merge, publish, distribute, sublicense, + * and/or sell copies of the Software, and to permit persons to whom the + * Software is furnished to do so, subject to the following conditions: + * + * The above copyright notice and this permission notice shall be included in + * all copies or substantial portions of the Software. + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR + * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, + * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL + * THE XFREE86 PROJECT BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, + * WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF + * OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE + * SOFTWARE. + * + * Except as contained in this notice, the name of the XFree86 Project shall + * not be used in advertising or otherwise to promote the sale, use or other + * dealings in this Software without prior written authorization from the + * XFree86 Project. + * + * Author: Paulo César Pereira de Andrade + */ + +/* $XFree86: xc/programs/xedit/lisp/compile.c,v 1.15tsi Exp $ */ + +#define VARIABLE_USED 0x0001 +#define VARIABLE_ARGUMENT 0x0002 + +/* + * Prototypes + */ +static void ComPredicate(LispCom*, LispBuiltin*, LispBytePredicate); +static void ComReturnFrom(LispCom*, LispBuiltin*, int); + +static int ComConstantp(LispCom*, LispObj*); +static void ComAddVariable(LispCom*, LispObj*, LispObj*); +static int ComGetVariable(LispCom*, LispObj*); +static void ComVariableSetFlag(LispCom*, LispAtom*, int); +#define COM_VARIABLE_USED(atom) \ + ComVariableSetFlag(com, atom, VARIABLE_USED) +#define COM_VARIABLE_ARGUMENT(atom) \ + ComVariableSetFlag(com, atom, VARIABLE_ARGUMENT) + +static int FindIndex(void*, void**, int); +static int compare(const void*, const void*); +static int BuildTablePointer(void*, void***, int*); + +static void ComLabel(LispCom*, LispObj*); +static void ComPush(LispCom*, LispObj*, LispObj*, int, int, int); +static int ComCall(LispCom*, LispArgList*, LispObj*, LispObj*, int, int, int); +static void ComFuncall(LispCom*, LispObj*, LispObj*, int); +static void ComProgn(LispCom*, LispObj*); +static void ComEval(LispCom*, LispObj*); + +static void ComRecursiveCall(LispCom*, LispArgList*, LispObj*, LispObj*); +static void ComInlineCall(LispCom*, LispArgList*, LispObj*, LispObj*, LispObj*); + +static void ComMacroBackquote(LispCom*, LispObj*); +static void ComMacroCall(LispCom*, LispArgList*, LispObj*, LispObj*, LispObj*); +static LispObj *ComMacroExpandBackquote(LispCom*, LispObj*); +static LispObj *ComMacroExpand(LispCom*, LispObj*); +static LispObj *ComMacroExpandFuncall(LispCom*, LispObj*, LispObj*); +static LispObj *ComMacroExpandEval(LispCom*, LispObj*); + +/* + * Implementation + */ +void +Com_And(LispCom *com, LispBuiltin *builtin) +/* + and &rest args + */ +{ + LispObj *args; + + args = ARGUMENT(0); + + if (CONSP(args)) { + /* Evaluate first argument */ + ComEval(com, CAR(args)); + args = CDR(args); + + /* If more than one argument, create jump list */ + if (CONSP(args)) { + CodeTree *tree = NULL, *group; + + group = NEW_TREE(CodeTreeJumpIf); + group->code = XBC_JUMPNIL; + + for (; CONSP(args); args = CDR(args)) { + ComEval(com, CAR(args)); + tree = NEW_TREE(CodeTreeJumpIf); + tree->code = XBC_JUMPNIL; + group->group = tree; + group = tree; + } + /* Finish form the last CodeTree code is changed to sign the + * end of the AND list */ + group->code = XBC_NOOP; + if (group) + group->group = tree; + } + } + else + /* Identity of AND is T */ + com_Bytecode(com, XBC_T); +} + +void +Com_Block(LispCom *com, LispBuiltin *builtin) +/* + block name &rest body + */ +{ + + LispObj *name, *body; + + body = ARGUMENT(1); + name = ARGUMENT(0); + + if (name != NIL && name != T && !SYMBOLP(name)) + LispDestroy("%s: %s cannot name a block", + STRFUN(builtin), STROBJ(name)); + if (CONSP(body)) { + CompileIniBlock(com, LispBlockTag, name); + ComProgn(com, body); + CompileFiniBlock(com); + } + else + /* Just load NIL without starting an empty block */ + com_Bytecode(com, XBC_NIL); +} + +void +Com_C_r(LispCom *com, LispBuiltin *builtin) +/* + c[ad]{1,4}r list + */ +{ + LispObj *list; + char *desc; + + list = ARGUMENT(0); + + desc = STRFUN(builtin); + if (*desc == 'F') /* FIRST */ + desc = "CAR"; + else if (*desc == 'R') /* REST */ + desc = "CDR"; + + /* Check if it is a list of constants */ + while (desc[1] != 'R') + desc++; + ComEval(com, list); + while (*desc != 'C') { + com_Bytecode(com, *desc == 'A' ? XBC_CAR : XBC_CDR); + --desc; + } +} + +void +Com_Cond(LispCom *com, LispBuiltin *builtin) +/* + cond &rest body + */ +{ + int count; + LispObj *code, *body; + CodeTree *group, *tree; + + body = ARGUMENT(0); + + count = 0; + group = NULL; + if (CONSP(body)) { + for (; CONSP(body); body = CDR(body)) { + code = CAR(body); + CHECK_CONS(code); + ++count; + ComEval(com, CAR(code)); + tree = NEW_TREE(CodeTreeCond); + if (group) + group->group = tree; + tree->code = XBC_JUMPNIL; + group = tree; + /* The code to execute if the test is true */ + ComProgn(com, CDR(code)); + /* Add a node signaling the end of the PROGN code */ + tree = NEW_TREE(CodeTreeCond); + tree->code = XBC_JUMPT; + if (group) + group->group = tree; + group = tree; + } + } + if (!count) + com_Bytecode(com, XBC_NIL); + else + /* Where to jump after T progn */ + group->code = XBC_NOOP; +} + +void +Com_Cons(LispCom *com, LispBuiltin *builtin) +/* + cons car cdr + */ +{ + LispObj *car, *cdr; + + cdr = ARGUMENT(1); + car = ARGUMENT(0); + + if (ComConstantp(com, car) && ComConstantp(com, cdr)) + com_BytecodeCons(com, XBC_CCONS, car, cdr); + else { + ++com->stack.cpstack; + if (com->stack.pstack < com->stack.cpstack) + com->stack.pstack = com->stack.cpstack; + ComEval(com, car); + com_Bytecode(com, XBC_CSTAR); + ComEval(com, cdr); + com_Bytecode(com, XBC_CFINI); + --com->stack.cpstack; + } +} + +void +Com_Consp(LispCom *com, LispBuiltin *builtin) +/* + consp object + */ +{ + ComPredicate(com, builtin, XBP_CONSP); +} + +void +Com_Dolist(LispCom *com, LispBuiltin *builtin) +/* + dolist init &rest body + */ +{ + int unbound, item; + LispObj *symbol, *list, *result; + LispObj *init, *body; + CodeTree *group, *tree; + + body = ARGUMENT(1); + init = ARGUMENT(0); + + CHECK_CONS(init); + symbol = CAR(init); + CHECK_SYMBOL(symbol); + CHECK_CONSTANT(symbol); + init = CDR(init); + if (CONSP(init)) { + list = CAR(init); + init = CDR(init); + } + else + list = NIL; + if (CONSP(init)) { + result = CAR(init); + if (CONSP(CDR(init))) + LispDestroy("%s: too many arguments %s", + STRFUN(builtin), STROBJ(CDR(init))); + } + else + result = NIL; + + /* Generate code for the body of the form. + * The generated code uses two objects unavailable to user code, + * in the format: + * (block NIL + * (let ((? list) (item NIL)) + * (tagbody + * . ; the DOT object as a label + * (when (consp list) + * (setq item (car ?)) + * @body ; code to be executed + * (setq ? (cdr ?)) + * (go .) + * ) + * ) + * (setq item nil) + * result + * ) + * ) + */ + + /* XXX All of the logic below should be simplified at some time + * by adding more opcodes for compound operations ... */ + + /* Relative offsets the locally added variables will have at run time */ + unbound = lisp__data.env.length - lisp__data.env.lex; + item = unbound + 1; + + /* Start BLOCK NIL */ + FORM_ENTER(); + CompileIniBlock(com, LispBlockTag, NIL); + + /* Add the <?> variable */ + ComPush(com, UNBOUND, list, 1, 0, 0); + /* Add the <item> variable */ + ComPush(com, symbol, NIL, 0, 0, 0); + /* Stack length is increased */ + CompileStackEnter(com, 2, 0); + /* Bind variables */ + com_Bind(com, 2); + com->block->bind += 2; + lisp__data.env.head += 2; + + /* Remember that iteration variable is used even if it not referenced */ + COM_VARIABLE_USED(symbol->data.atom); + + /* Initialize the TAGBODY */ + FORM_ENTER(); + CompileIniBlock(com, LispBlockBody, NIL); + + /* Create the <.> label */ + ComLabel(com, DOT); + + /* Load <?> variable */ + com_BytecodeShort(com, XBC_LOAD, unbound); + /* Check if <?> is a list */ + com_BytecodeChar(com, XBC_PRED, XBP_CONSP); + + /* Start WHEN block */ + group = NEW_TREE(CodeTreeJumpIf); + group->code = XBC_JUMPNIL; + /* Load <?> again */ + com_BytecodeShort(com, XBC_LOAD, unbound); + /* Get CAR of <?> */ + com_Bytecode(com, XBC_CAR); + /* Store it in <item> */ + com_BytecodeShort(com, XBC_SET, item); + /* Execute @BODY */ + ComProgn(com, body); + + /* Load <?> again */ + com_BytecodeShort(com, XBC_LOAD, unbound); + /* Get CDR of <?> */ + com_Bytecode(com, XBC_CDR); + /* Change value of <?> */ + com_BytecodeShort(com, XBC_SET, unbound); + + /* GO back to <.> */ + tree = NEW_TREE(CodeTreeGo); + tree->data.object = DOT; + + /* Finish WHEN block */ + tree = NEW_TREE(CodeTreeJumpIf); + tree->code = XBC_NOOP; + group->group = tree; + + /* Finish the TAGBODY */ + CompileFiniBlock(com); + FORM_LEAVE(); + + /* Set <item> to NIL, in case result references it... + * Loaded value is NIL as the CONSP predicate */ + com_BytecodeShort(com, XBC_SET, item); + + /* Evaluate <result> */ + ComEval(com, result); + + /* Unbind variables */ + lisp__data.env.head -= 2; + lisp__data.env.length -= 2; + com->block->bind -= 2; + com_Unbind(com, 2); + /* Stack length is reduced. */ + CompileStackLeave(com, 2, 0); + + /* Finish BLOCK NIL */ + CompileFiniBlock(com); + FORM_LEAVE(); +} + +void +Com_Eq(LispCom *com, LispBuiltin *builtin) +/* + eq left right + eql left right + equal left right + equalp left right + */ +{ + LispObj *left, *right; + LispByteOpcode code; + char *name; + + right = ARGUMENT(1); + left = ARGUMENT(0); + + CompileStackEnter(com, 1, 1); + /* Just like preparing to call a builtin function */ + ComEval(com, left); + com_Bytecode(com, XBC_PUSH); + /* The second argument is now loaded */ + ComEval(com, right); + + /* Compare arguments and restore builtin stack */ + name = STRFUN(builtin); + switch (name[3]) { + case 'L': + code = XBC_EQL; + break; + case 'U': + code = name[5] == 'P' ? XBC_EQUALP : XBC_EQUAL; + break; + default: + code = XBC_EQ; + break; + } + com_Bytecode(com, code); + + CompileStackLeave(com, 1, 1); +} + +void +Com_Go(LispCom *com, LispBuiltin *builtin) +/* + go tag + */ +{ + int bind; + LispObj *tag; + CodeTree *tree; + CodeBlock *block; + + tag = ARGUMENT(0); + + block = com->block; + bind = block->bind; + + while (block) { + if (block->type == LispBlockClosure || block->type == LispBlockBody) + break; + block = block->prev; + if (block) + bind += block->bind; + } + + if (!block || block->type != LispBlockBody) + LispDestroy("%s called not within a block", STRFUN(builtin)); + + /* Unbind any local variables */ + com_Unbind(com, bind); + tree = NEW_TREE(CodeTreeGo); + tree->data.object = tag; +} + +void +Com_If(LispCom *com, LispBuiltin *builtin) +/* + if test then &optional else + */ +{ + CodeTree *group, *tree; + LispObj *test, *then, *oelse; + + oelse = ARGUMENT(2); + then = ARGUMENT(1); + test = ARGUMENT(0); + + /* Build code to execute test */ + ComEval(com, test); + + /* Add jump node to use if test is NIL */ + group = NEW_TREE(CodeTreeJumpIf); + group->code = XBC_JUMPNIL; + + /* Build T code */ + ComEval(com, then); + + if (oelse != UNSPEC) { + /* Remember start of NIL code */ + tree = NEW_TREE(CodeTreeJump); + tree->code = XBC_JUMP; + group->group = tree; + group = tree; + /* Build NIL code */ + ComEval(com, oelse); + } + + /* Remember jump of T code */ + tree = NEW_TREE(CodeTreeJumpIf); + tree->code = XBC_NOOP; + group->group = tree; +} + +void +Com_Last(LispCom *com, LispBuiltin *builtin) +/* + last list &optional count + */ +{ + LispObj *list, *count; + + count = ARGUMENT(1); + list = ARGUMENT(0); + + ComEval(com, list); + CompileStackEnter(com, 1, 1); + com_Bytecode(com, XBC_PUSH); + if (count == UNSPEC) + count = FIXNUM(1); + ComEval(com, count); + CompileStackLeave(com, 1, 1); + com_Bytecode(com, XBC_LAST); +} + +void +Com_Length(LispCom *com, LispBuiltin *builtin) +/* + length sequence + */ +{ + LispObj *sequence; + + sequence = ARGUMENT(0); + + ComEval(com, sequence); + com_Bytecode(com, XBC_LENGTH); +} + +void +Com_Let(LispCom *com, LispBuiltin *builtin) +/* + let init &rest body + */ +{ + int count; + LispObj *symbol, *value, *pair; + + LispObj *init, *body; + + body = ARGUMENT(1); + init = ARGUMENT(0); + + if (init == NIL) { + /* If no local variables */ + ComProgn(com, body); + return; + } + CHECK_CONS(init); + + /* Could optimize if the body is empty and the + * init form is known to have no side effects */ + + for (count = 0; CONSP(init); init = CDR(init), count++) { + pair = CAR(init); + if (CONSP(pair)) { + symbol = CAR(pair); + pair = CDR(pair); + if (CONSP(pair)) { + value = CAR(pair); + if (CDR(pair) != NIL) + LispDestroy("%s: too much arguments to initialize %s", + STRFUN(builtin), STROBJ(symbol)); + } + else + value = NIL; + } + else { + symbol = pair; + value = NIL; + } + CHECK_SYMBOL(symbol); + CHECK_CONSTANT(symbol); + + /* Add the variable */ + ComPush(com, symbol, value, 1, 0, 0); + } + + /* Stack length is increased */ + CompileStackEnter(com, count, 0); + /* Bind the added variables */ + com_Bind(com, count); + com->block->bind += count; + lisp__data.env.head += count; + /* Generate code for the body of the form */ + ComProgn(com, body); + /* Unbind the added variables */ + lisp__data.env.head -= count; + lisp__data.env.length -= count; + com->block->bind -= count; + com_Unbind(com, count); + /* Stack length is reduced. */ + CompileStackLeave(com, count, 0); +} + +void +Com_Letx(LispCom *com, LispBuiltin *builtin) +/* + let* init &rest body + */ +{ + int count; + LispObj *symbol, *value, *pair; + + LispObj *init, *body; + + body = ARGUMENT(1); + init = ARGUMENT(0); + + if (init == NIL) { + /* If no local variables */ + ComProgn(com, body); + return; + } + CHECK_CONS(body); + + /* Could optimize if the body is empty and the + * init form is known to have no side effects */ + + for (count = 0; CONSP(init); init = CDR(init), count++) { + pair = CAR(init); + if (CONSP(pair)) { + symbol = CAR(pair); + pair = CDR(pair); + if (CONSP(pair)) { + value = CAR(pair); + if (CDR(pair) != NIL) + LispDestroy("%s: too much arguments to initialize %s", + STRFUN(builtin), STROBJ(symbol)); + } + else + value = NIL; + } + else { + symbol = pair; + value = NIL; + } + CHECK_SYMBOL(symbol); + CHECK_CONSTANT(symbol); + + /* LET* is identical to &AUX arguments, just bind the symbol */ + ComPush(com, symbol, value, 1, 0, 0); + /* Every added variable is binded */ + com_Bind(com, 1); + /* Must be binded at compile time also */ + ++lisp__data.env.head; + ++com->block->bind; + } + + /* Generate code for the body of the form */ + CompileStackEnter(com, count, 0); + ComProgn(com, body); + com_Unbind(com, count); + com->block->bind -= count; + lisp__data.env.head -= count; + lisp__data.env.length -= count; + CompileStackLeave(com, count, 0); +} + +void +Com_Listp(LispCom *com, LispBuiltin *builtin) +/* + listp object + */ +{ + ComPredicate(com, builtin, XBP_LISTP); +} + +void +Com_Loop(LispCom *com, LispBuiltin *builtin) +/* + loop &rest body + */ +{ + CodeTree *tree, *group; + LispObj *body; + + body = ARGUMENT(0); + + /* Start NIL block */ + CompileIniBlock(com, LispBlockTag, NIL); + + /* Insert node to mark LOOP start */ + tree = NEW_TREE(CodeTreeJump); + tree->code = XBC_NOOP; + + /* Execute @BODY */ + if (CONSP(body)) + ComProgn(com, body); + else + /* XXX bytecode.c code require that blocks have at least one opcode */ + com_Bytecode(com, XBC_NIL); + + /* Insert node to jump of start of LOOP */ + group = NEW_TREE(CodeTreeJump); + group->code = XBC_JUMP; + group->group = tree; + + /* Finish NIL block */ + CompileFiniBlock(com); +} + +void +Com_Nthcdr(LispCom *com, LispBuiltin *builtin) +/* + nthcdr index list + */ +{ + LispObj *oindex, *list; + + list = ARGUMENT(1); + oindex = ARGUMENT(0); + + ComEval(com, oindex); + CompileStackEnter(com, 1, 1); + com_Bytecode(com, XBC_PUSH); + ComEval(com, list); + CompileStackLeave(com, 1, 1); + com_Bytecode(com, XBC_NTHCDR); +} + +void +Com_Null(LispCom *com, LispBuiltin *builtin) +/* + null list + */ +{ + LispObj *list; + + list = ARGUMENT(0); + + if (list == NIL) + com_Bytecode(com, XBC_T); + else if (ComConstantp(com, list)) + com_Bytecode(com, XBC_NIL); + else { + ComEval(com, list); + com_Bytecode(com, XBC_INV); + } +} + +void +Com_Numberp(LispCom *com, LispBuiltin *builtin) +/* + numberp object + */ +{ + ComPredicate(com, builtin, XBP_NUMBERP); +} + +void +Com_Or(LispCom *com, LispBuiltin *builtin) +/* + or &rest args + */ +{ + LispObj *args; + + args = ARGUMENT(0); + + if (CONSP(args)) { + /* Evaluate first argument */ + ComEval(com, CAR(args)); + args = CDR(args); + + /* If more than one argument, create jump list */ + if (CONSP(args)) { + CodeTree *tree = NULL, *group; + + group = NEW_TREE(CodeTreeJumpIf); + group->code = XBC_JUMPT; + + for (; CONSP(args); args = CDR(args)) { + ComEval(com, CAR(args)); + tree = NEW_TREE(CodeTreeJumpIf); + tree->code = XBC_JUMPT; + group->group = tree; + group = tree; + } + /* Finish form the last CodeTree code is changed to sign the + * end of the AND list */ + group->code = XBC_NOOP; + group->group = tree; + } + } + else + /* Identity of OR is NIL */ + com_Bytecode(com, XBC_NIL); +} + +void +Com_Progn(LispCom *com, LispBuiltin *builtin) +/* + progn &rest body + */ +{ + LispObj *body; + + body = ARGUMENT(0); + + ComProgn(com, body); +} + +void +Com_Return(LispCom *com, LispBuiltin *builtin) +/* + return &optional result + */ +{ + ComReturnFrom(com, builtin, 0); +} + +void +Com_ReturnFrom(LispCom *com, LispBuiltin *builtin) +/* + return-from name &optional result + */ +{ + ComReturnFrom(com, builtin, 1); +} + +void +Com_Rplac_(LispCom *com, LispBuiltin *builtin) +/* + rplac[ad] place value + */ +{ + LispObj *place, *value; + + value = ARGUMENT(1); + place = ARGUMENT(0); + + CompileStackEnter(com, 1, 1); + ComEval(com, place); + com_Bytecode(com, XBC_PUSH); + ComEval(com, value); + com_Bytecode(com, STRFUN(builtin)[5] == 'A' ? XBC_RPLACA : XBC_RPLACD); + CompileStackLeave(com, 1, 1); +} + +void +Com_Setq(LispCom *com, LispBuiltin *builtin) +/* + setq &rest form + */ +{ + int offset; + LispObj *form, *symbol, *value; + + form = ARGUMENT(0); + + for (; CONSP(form); form = CDR(form)) { + symbol = CAR(form); + CHECK_SYMBOL(symbol); + CHECK_CONSTANT(symbol); + form = CDR(form); + if (!CONSP(form)) + LispDestroy("%s: odd number of arguments", STRFUN(builtin)); + value = CAR(form); + /* Generate code to load value */ + ComEval(com, value); + offset = ComGetVariable(com, symbol); + if (offset >= 0) + com_Set(com, offset); + else + com_SetSym(com, symbol->data.atom); + } +} + +void +Com_Tagbody(LispCom *com, LispBuiltin *builtin) +/* + tagbody &rest body + */ +{ + LispObj *body; + + body = ARGUMENT(0); + + if (CONSP(body)) { + CompileIniBlock(com, LispBlockBody, NIL); + ComProgn(com, body); + /* Tagbody returns NIL */ + com_Bytecode(com, XBC_NIL); + CompileFiniBlock(com); + } + else + /* Tagbody always returns NIL */ + com_Bytecode(com, XBC_NIL); +} + +void +Com_Unless(LispCom *com, LispBuiltin *builtin) +/* + unless test &rest body + */ +{ + CodeTree *group, *tree; + LispObj *test, *body; + + body = ARGUMENT(1); + test = ARGUMENT(0); + + /* Generate code to evaluate test */ + ComEval(com, test); + /* Add node after test */ + group = NEW_TREE(CodeTreeJumpIf); + group->code = XBC_JUMPT; + /* Generate NIL code */ + ComProgn(com, body); + /* Insert node to know where to jump if test is T */ + tree = NEW_TREE(CodeTreeJumpIf); + tree->code = XBC_NOOP; + group->group = tree; +} + +void +Com_Until(LispCom *com, LispBuiltin *builtin) +/* + until test &rest body + */ +{ + CodeTree *tree, *group, *ltree, *lgroup; + LispObj *test, *body; + + body = ARGUMENT(1); + test = ARGUMENT(0); + + /* Insert node to mark LOOP start */ + ltree = NEW_TREE(CodeTreeJump); + ltree->code = XBC_NOOP; + + /* Build code for test */ + ComEval(com, test); + group = NEW_TREE(CodeTreeJumpIf); + group->code = XBC_JUMPT; + + /* Execute @BODY */ + ComProgn(com, body); + + /* Insert node to jump to test again */ + lgroup = NEW_TREE(CodeTreeJump); + lgroup->code = XBC_JUMP; + lgroup->group = ltree; + + /* Insert node to know where to jump if test is T */ + tree = NEW_TREE(CodeTreeJumpIf); + tree->code = XBC_NOOP; + group->group = tree; +} + +void +Com_When(LispCom *com, LispBuiltin *builtin) +/* + when test &rest body + */ +{ + CodeTree *group, *tree; + LispObj *test, *body; + + body = ARGUMENT(1); + test = ARGUMENT(0); + + /* Generate code to evaluate test */ + ComEval(com, test); + /* Add node after test */ + group = NEW_TREE(CodeTreeJumpIf); + group->code = XBC_JUMPNIL; + /* Generate T code */ + ComProgn(com, body); + /* Insert node to know where to jump if test is NIL */ + tree = NEW_TREE(CodeTreeJumpIf); + tree->code = XBC_NOOP; + group->group = tree; +} + +void +Com_While(LispCom *com, LispBuiltin *builtin) +/* + while test &rest body + */ +{ + CodeTree *tree, *group, *ltree, *lgroup; + LispObj *test, *body; + + body = ARGUMENT(1); + test = ARGUMENT(0); + + /* Insert node to mark LOOP start */ + ltree = NEW_TREE(CodeTreeJump); + ltree->code = XBC_NOOP; + + /* Build code for test */ + ComEval(com, test); + group = NEW_TREE(CodeTreeJumpIf); + group->code = XBC_JUMPNIL; + + /* Execute @BODY */ + ComProgn(com, body); + + /* Insert node to jump to test again */ + lgroup = NEW_TREE(CodeTreeJump); + lgroup->code = XBC_JUMP; + lgroup->group = ltree; + + /* Insert node to know where to jump if test is NIL */ + tree = NEW_TREE(CodeTreeJumpIf); + tree->code = XBC_NOOP; + group->group = tree; +} + + +/*********************************************************************** + * Com_XXX helper functions + ***********************************************************************/ +static void +ComPredicate(LispCom *com, LispBuiltin *builtin, LispBytePredicate predicate) +{ + LispObj *object; + + object = ARGUMENT(0); + + if (ComConstantp(com, object)) { + switch (predicate) { + case XBP_CONSP: + com_Bytecode(com, CONSP(object) ? XBC_T : XBC_NIL); + break; + case XBP_LISTP: + com_Bytecode(com, CONSP(object) || object == NIL ? + XBC_T : XBC_NIL); + break; + case XBP_NUMBERP: + com_Bytecode(com, NUMBERP(object) ? XBC_T : XBC_NIL); + break; + } + } + else { + ComEval(com, object); + com_BytecodeChar(com, XBC_PRED, predicate); + } +} + +/* XXX Could receive an argument telling if is the last statement in the + * block(s), i.e. if a jump opcode should be generated or just the + * evaluation of the returned value. Probably this is better done in + * an optimization step. */ +static void +ComReturnFrom(LispCom *com, LispBuiltin *builtin, int from) +{ + int bind; + CodeTree *tree; + LispObj *name, *result; + CodeBlock *block = com->block; + + if (from) { + result = ARGUMENT(1); + name = ARGUMENT(0); + } + else { + result = ARGUMENT(0); + name = NIL; + } + if (result == UNSPEC) + result = NIL; + + bind = block->bind; + while (block) { + if (block->type == LispBlockClosure) + /* A function call */ + break; + else if (block->type == LispBlockTag && block->tag == name) + break; + block = block->prev; + if (block) + bind += block->bind; + } + + if (!block || block->tag != name) + LispDestroy("%s: no visible %s block", STRFUN(builtin), STROBJ(name)); + + /* Generate code to load result */ + ComEval(com, result); + + /* Check for added variables that the jump is skiping the unbind opcode */ + com_Unbind(com, bind); + + tree = NEW_TREE(CodeTreeReturn); + tree->data.block = block; +} + +/*********************************************************************** + * Helper functions + ***********************************************************************/ +static int +ComConstantp(LispCom *com, LispObj *object) +{ + switch (OBJECT_TYPE(object)) { + case LispAtom_t: + /* Keywords are guaranteed to evaluate to itself */ + if (object->data.atom->package == lisp__data.keyword) + break; + return (0); + + /* Function call */ + case LispCons_t: + + /* Need macro expansion, these are special abstract objects */ + case LispQuote_t: + case LispBackquote_t: + case LispComma_t: + case LispFunctionQuote_t: + return (0); + + /* Anything else is a literal constant */ + default: + break; + } + + return (1); +} + +static int +FindIndex(void *item, void **table, int length) +{ + long cmp; + int left, right, i; + + left = 0; + right = length - 1; + while (left <= right) { + i = (left + right) >> 1; + cmp = (char*)item - (char*)table[i]; + if (cmp == 0) + return (i); + else if (cmp < 0) + right = i - 1; + else + left = i + 1; + } + + return (-1); +} + +static int +compare(const void *left, const void *right) +{ + long cmp = *(char**)left - *(char**)right; + + return (cmp < 0 ? -1 : 1); +} + +static int +BuildTablePointer(void *pointer, void ***pointers, int *num_pointers) +{ + int i; + + if ((i = FindIndex(pointer, *pointers, *num_pointers)) < 0) { + *pointers = LispRealloc(*pointers, + sizeof(void*) * (*num_pointers + 1)); + (*pointers)[*num_pointers] = pointer; + if (++*num_pointers > 1) + qsort(*pointers, *num_pointers, sizeof(void*), compare); + i = FindIndex(pointer, *pointers, *num_pointers); + } + + return (i); +} + +static void +ComAddVariable(LispCom *com, LispObj *symbol, LispObj *value) +{ + LispAtom *atom = symbol->data.atom; + + if (atom && atom->string && !com->macro) { + int i, length = com->block->variables.length; + + i = BuildTablePointer(atom, (void***)&com->block->variables.symbols, + &com->block->variables.length); + + if (com->block->variables.length != length) { + com->block->variables.flags = + LispRealloc(com->block->variables.flags, + com->block->variables.length * sizeof(int)); + + /* Variable was inserted in the middle of the list */ + if (i < length) + memmove(com->block->variables.flags + i + 1, + com->block->variables.flags + i, + (length - i) * sizeof(int)); + + com->block->variables.flags[i] = 0; + } + } + + LispAddVar(symbol, value); +} + +static int +ComGetVariable(LispCom *com, LispObj *symbol) +{ + LispAtom *name; + int i, base, offset; + Atom_id id; + + name = symbol->data.atom; + if (name->constant) { + if (name->package == lisp__data.keyword) + /* Just load <symbol> from the byte stream, keywords are + * guaranteed to evaluate to itself. */ + return (SYMBOL_KEYWORD); + return (SYMBOL_CONSTANT); + } + + offset = name->offset; + id = name->string; + base = lisp__data.env.lex; + i = lisp__data.env.head - 1; + + /* If variable is local */ + if (offset <= i && offset >= com->lex && lisp__data.env.names[offset] == id) { + COM_VARIABLE_USED(name); + /* Relative offset */ + return (offset - base); + } + + /* name->offset may have been changed in a macro expansion */ + for (; i >= com->lex; i--) + if (lisp__data.env.names[i] == id) { + name->offset = i; + COM_VARIABLE_USED(name); + return (i - base); + } + + if (!name->a_object) { + ++com->warnings; + LispWarning("variable %s is neither declared nor bound", + name->string); + } + + /* Not found, resolve <symbol> at run time */ + return (SYMBOL_UNBOUND); +} + +static void +ComVariableSetFlag(LispCom *com, LispAtom *atom, int flag) +{ + int i; + CodeBlock *block = com->block; + + while (block) { + i = FindIndex(atom, (void**)block->variables.symbols, + block->variables.length); + if (i >= 0) { + block->variables.flags[i] |= flag; + /* Descend block list if an argument to function being called + * has the same name as a bound variable in the current function. + */ + if ((flag & VARIABLE_ARGUMENT) || + !(block->variables.flags[i] & VARIABLE_ARGUMENT)) + break; + } + block = block->prev; + } +} + +/*********************************************************************** + * Bytecode compiler functions + ***********************************************************************/ +static void +ComLabel(LispCom *com, LispObj *label) +{ + int i; + CodeTree *tree; + + for (i = 0; i < com->block->tagbody.length; i++) + if (label == com->block->tagbody.labels[i]) + LispDestroy("TAGBODY: tag %s specified more than once", + STROBJ(label)); + + if (com->block->tagbody.length >= com->block->tagbody.space) { + com->block->tagbody.labels = + LispRealloc(com->block->tagbody.labels, + sizeof(LispObj*) * (com->block->tagbody.space + 8)); + /* Reserve space, will be used at link time when + * resolving GO jumps. */ + com->block->tagbody.codes = + LispRealloc(com->block->tagbody.codes, + sizeof(CodeTree*) * (com->block->tagbody.space + 8)); + com->block->tagbody.space += 8; + } + + com->block->tagbody.labels[com->block->tagbody.length++] = label; + tree = NEW_TREE(CodeTreeLabel); + tree->data.object = label; +} + +static void +ComPush(LispCom *com, LispObj *symbol, LispObj *value, + int eval, int builtin, int compile) +{ + /* If <compile> is set, it is pushing an argument to one of + * Com_XXX functions. */ + if (compile) { + if (builtin) + lisp__data.stack.values[lisp__data.stack.length++] = value; + else + ComAddVariable(com, symbol, value); + return; + } + + /* If <com->macro> is set, it is expanding a macro, just add the local + * variable <symbol> bounded to <value>, so that it will be available + * when calling the interpreter to expand the macro. */ + else if (com->macro) { + ComAddVariable(com, symbol, value); + return; + } + + /* If <eval> is set, it must generate the opcodes to evaluate <value>. + * If <value> is a constant, just generate the opcodes to load it. */ + else if (eval && !ComConstantp(com, value)) { + switch (OBJECT_TYPE(value)) { + case LispAtom_t: { + int offset = ComGetVariable(com, value); + + if (offset >= 0) { + /* Load <value> from user stack at the relative offset */ + if (builtin) + com_LoadPush(com, offset); + else + com_LoadLet(com, offset, symbol->data.atom); + } + /* ComConstantp() does not return true for this, as the + * current value must be computed. */ + else if (offset == SYMBOL_CONSTANT) { + value = value->data.atom->property->value; + if (builtin) + com_LoadConPush(com, value); + else + com_LoadConLet(com, value, symbol->data.atom); + } + else { + /* Load value bound to <value> at run time */ + if (builtin) + com_LoadSymPush(com, value->data.atom); + else + com_LoadSymLet(com, value->data.atom, + symbol->data.atom); + } + } break; + + default: + /* Generate code to evaluate <value> */ + ComEval(com, value); + if (builtin) + com_Bytecode(com, XBC_PUSH); + else + com_Let(com, symbol->data.atom); + break; + } + + /* Remember <symbol> will be bound, <value> only matters for + * the Com_XXX functions */ + if (builtin) + lisp__data.stack.values[lisp__data.stack.length++] = value; + else + ComAddVariable(com, symbol, value); + return; + } + + if (builtin) { + /* Load <value> as a constant in builtin stack */ + com_LoadConPush(com, value); + lisp__data.stack.values[lisp__data.stack.length++] = value; + } + else { + /* Load <value> as a constant in stack */ + com_LoadConLet(com, value, symbol->data.atom); + /* Remember <symbol> will be bound */ + ComAddVariable(com, symbol, value); + } +} + +/* This function does almost the same job as LispMakeEnvironment, but + * it is not optimized for speed, as it is not building argument lists + * to user code, but to Com_XXX functions, or helping in generating the + * opcodes to load arguments at bytecode run time. */ +static int +ComCall(LispCom *com, LispArgList *alist, + LispObj *name, LispObj *values, + int eval, int builtin, int compile) +{ + char *desc; + int i, count, base; + LispObj **symbols, **defaults, **sforms; + + if (builtin) { + base = lisp__data.stack.length; + /* This should never be executed, but make the check for safety */ + if (base + alist->num_arguments > lisp__data.stack.space) { + do + LispMoreStack(); + while (base + alist->num_arguments > lisp__data.stack.space); + } + } + else + base = lisp__data.env.length; + + desc = alist->description; + switch (*desc++) { + case '.': + goto normal_label; + case 'o': + goto optional_label; + case 'k': + goto key_label; + case 'r': + goto rest_label; + case 'a': + goto aux_label; + default: + goto done_label; + } + + + /* Normal arguments */ +normal_label: + i = 0; + symbols = alist->normals.symbols; + count = alist->normals.num_symbols; + for (; i < count && CONSP(values); i++, values = CDR(values)) { + ComPush(com, symbols[i], CAR(values), eval, builtin, compile); + if (!builtin && !com->macro) + COM_VARIABLE_ARGUMENT(symbols[i]->data.atom); + } + if (i < count) + LispDestroy("%s: too few arguments", STROBJ(name)); + + switch (*desc++) { + case 'o': + goto optional_label; + case 'k': + goto key_label; + case 'r': + goto rest_label; + case 'a': + goto aux_label; + default: + goto done_label; + } + + + /* &OPTIONAL */ +optional_label: + i = 0; + count = alist->optionals.num_symbols; + symbols = alist->optionals.symbols; + defaults = alist->optionals.defaults; + sforms = alist->optionals.sforms; + for (; i < count && CONSP(values); i++, values = CDR(values)) { + ComPush(com, symbols[i], CAR(values), eval, builtin, compile); + if (!builtin && !com->macro) + COM_VARIABLE_ARGUMENT(symbols[i]->data.atom); + if (sforms[i]) { + ComPush(com, sforms[i], T, 0, builtin, compile); + if (!builtin && !com->macro) + COM_VARIABLE_ARGUMENT(sforms[i]->data.atom); + } + } + for (; i < count; i++) { + if (!builtin) { + int lex = com->lex; + int head = lisp__data.env.head; + + com->lex = base; + lisp__data.env.head = lisp__data.env.length; + /* default arguments are evaluated for macros */ + ComPush(com, symbols[i], defaults[i], 1, 0, compile); + if (!com->macro) + COM_VARIABLE_ARGUMENT(symbols[i]->data.atom); + lisp__data.env.head = head; + com->lex = lex; + } + else + ComPush(com, symbols[i], defaults[i], eval, 1, compile); + if (sforms[i]) { + ComPush(com, sforms[i], NIL, 0, builtin, compile); + if (!builtin && !com->macro) + COM_VARIABLE_ARGUMENT(sforms[i]->data.atom); + } + } + + switch (*desc++) { + case 'k': + goto key_label; + case 'r': + goto rest_label; + case 'a': + goto aux_label; + default: + goto done_label; + } + + + /* &KEY */ +key_label: + { + int varset; + LispObj *val, *karg, **keys; + + count = alist->keys.num_symbols; + symbols = alist->keys.symbols; + defaults = alist->keys.defaults; + sforms = alist->keys.sforms; + keys = alist->keys.keys; + + /* Check if arguments are correctly specified */ + for (karg = values; CONSP(karg); karg = CDR(karg)) { + val = CAR(karg); + if (KEYWORDP(val)) { + for (i = 0; i < alist->keys.num_symbols; i++) + if (!keys[i] && symbols[i] == val) + break; + } + + else if (!builtin && + QUOTEP(val) && SYMBOLP(val->data.quote)) { + for (i = 0; i < alist->keys.num_symbols; i++) + if (keys[i] && ATOMID(keys[i]) == ATOMID(val->data.quote)) + break; + } + + else + /* Just make the error test true */ + i = alist->keys.num_symbols; + + if (i == alist->keys.num_symbols) { + /* If not in argument specification list... */ + char function_name[36]; + + strcpy(function_name, STROBJ(name)); + LispDestroy("%s: invalid keyword %s", + function_name, STROBJ(val)); + } + + karg = CDR(karg); + if (!CONSP(karg)) + LispDestroy("%s: &KEY needs arguments as pairs", + STROBJ(name)); + } + + /* Add variables */ + for (i = 0; i < alist->keys.num_symbols; i++) { + val = defaults[i]; + varset = 0; + if (!builtin && keys[i]) { + Atom_id atom = ATOMID(keys[i]); + + /* Special keyword specification, need to compare ATOMID + * and keyword specification must be a quoted object */ + for (karg = values; CONSP(karg); karg = CDR(karg)) { + val = CAR(karg); + if (QUOTEP(val) && atom == ATOMID(val->data.quote)) { + val = CADR(karg); + varset = 1; + break; + } + karg = CDR(karg); + } + } + + else { + /* Normal keyword specification, can compare object pointers, + * as they point to the same object in the keyword package */ + for (karg = values; CONSP(karg); karg = CDR(karg)) { + /* Don't check if argument is a valid keyword or + * special quoted keyword */ + if (symbols[i] == CAR(karg)) { + val = CADR(karg); + varset = 1; + break; + } + karg = CDR(karg); + } + } + + /* Add the variable to environment */ + if (varset) { + ComPush(com, symbols[i], val, eval, builtin, compile); + if (sforms[i]) + ComPush(com, sforms[i], T, 0, builtin, compile); + } + else { + /* default arguments are evaluated for macros */ + if (!builtin) { + int lex = com->lex; + int head = lisp__data.env.head; + + com->lex = base; + lisp__data.env.head = lisp__data.env.length; + ComPush(com, symbols[i], val, eval, 0, compile); + lisp__data.env.head = head; + com->lex = lex; + } + else + ComPush(com, symbols[i], val, eval, builtin, compile); + if (sforms[i]) + ComPush(com, sforms[i], NIL, 0, builtin, compile); + } + if (!builtin && !com->macro) { + COM_VARIABLE_ARGUMENT(symbols[i]->data.atom); + if (sforms[i]) + COM_VARIABLE_ARGUMENT(sforms[i]->data.atom); + } + } + } + + if (*desc == 'a') { + /* &KEY uses all remaining arguments */ + values = NIL; + goto aux_label; + } + goto finished_label; + + + /* &REST */ +rest_label: + if (!eval || !CONSP(values) || (compile && !builtin)) + ComPush(com, alist->rest, values, eval, builtin, compile); + else { + char *string; + LispObj *list, *car = NIL; + int count, constantp; + + /* Count number of arguments and check if it is a list of constants */ + for (count = 0, constantp = 1, list = values; + CONSP(list); + list = CDR(list), count++) { + car = CAR(list); + if (!ComConstantp(com, car)) + constantp = 0; + } + + string = builtin ? ATOMID(name) : NULL; + /* XXX FIXME should have a flag indicating if function call + * change the &REST arguments even if it is a constant list + * (or if the returned value may be changed). */ + if (string && (count < MAX_BCONS || constantp) && + strcmp(string, "LIST") && + strcmp(string, "APPLY") && /* XXX depends on function argument */ + strcmp(string, "VECTOR") && + /* Append does not copy the last/single list */ + (strcmp(string, "APPEND") || !CONSP(car))) { + if (constantp) { + /* If the builtin function changes the &REST parameters, must + * define a Com_XXX function for it. */ + ComPush(com, alist->rest, values, 0, builtin, compile); + } + else { + CompileStackEnter(com, count - 1, 1); + for (; CONSP(CDR(values)); values = CDR(values)) { + /* Evaluate this argument */ + ComEval(com, CAR(values)); + /* Save result in builtin stack */ + com_Bytecode(com, XBC_PUSH); + } + CompileStackLeave(com, count - 1, 1); + /* The last argument is not saved in the stack */ + ComEval(com, CAR(values)); + values = NIL; + com_Bytecode(com, (LispByteOpcode)(XBC_BCONS + (count - 1))); + } + } + else { + /* Allocate a fresh list of cons */ + + /* Generate code to load object */ + ComEval(com, CAR(values)); + + com->stack.cpstack += 2; + if (com->stack.pstack < com->stack.cpstack) + com->stack.pstack = com->stack.cpstack; + /* Start building a gc protected list, with the loaded value */ + com_Bytecode(com, XBC_LSTAR); + + for (values = CDR(values); CONSP(values); values = CDR(values)) { + /* Generate code to load object */ + ComEval(com, CAR(values)); + + /* Add loaded value to gc protected list */ + com_Bytecode(com, XBC_LCONS); + } + + /* Finish gc protected list */ + com_Bytecode(com, XBC_LFINI); + + /* Push loaded value */ + if (builtin) + com_Bytecode(com, XBC_PUSH); + else { + com_Let(com, alist->rest->data.atom); + + /* Remember this symbol will be bound */ + ComAddVariable(com, alist->rest, values); + } + com->stack.cpstack -= 2; + } + } + if (!builtin && !com->macro) + COM_VARIABLE_ARGUMENT(alist->rest->data.atom); + if (*desc != 'a') + goto finished_label; + + + /* &AUX */ +aux_label: + i = 0; + count = alist->auxs.num_symbols; + symbols = alist->auxs.symbols; + defaults = alist->auxs.initials; + if (!builtin && !compile) { + int lex = com->lex; + + com->lex = base; + lisp__data.env.head = lisp__data.env.length; + for (; i < count; i++) { + ComPush(com, symbols[i], defaults[i], 1, 0, 0); + if (!com->macro) + COM_VARIABLE_ARGUMENT(symbols[i]->data.atom); + ++lisp__data.env.head; + } + com->lex = lex; + } + else { + for (; i < count; i++) { + ComPush(com, symbols[i], defaults[i], eval, builtin, compile); + if (!builtin && !com->macro) + COM_VARIABLE_ARGUMENT(symbols[i]->data.atom); + } + } + +done_label: + if (CONSP(values)) + LispDestroy("%s: too many arguments", STROBJ(name)); + +finished_label: + if (builtin) + lisp__data.stack.base = base; + else + lisp__data.env.head = lisp__data.env.length; + + return (base); +} + +static void +ComFuncall(LispCom *com, LispObj *function, LispObj *arguments, int eval) +{ + int base, compile; + LispAtom *atom; + LispArgList *alist; + LispBuiltin *builtin; + LispObj *lambda; + + switch (OBJECT_TYPE(function)) { + case LispFunction_t: + function = function->data.atom->object; + case LispAtom_t: + atom = function->data.atom; + alist = atom->property->alist; + + if (atom->a_builtin) { + builtin = atom->property->fun.builtin; + compile = builtin->compile != NULL; + + /* If one of: + * o expanding a macro + * o calling a builtin special form + * o builtin function is a macro + * don't evaluate arguments. */ + if (com->macro || compile || builtin->type == LispMacro) + eval = 0; + + if (!com->macro && builtin->type == LispMacro) { + /* Set flag of variable used, in case variable is only + * used as a builtin macro argument. */ + LispObj *obj; + + for (obj = arguments; CONSP(obj); obj = CDR(obj)) { + if (SYMBOLP(CAR(obj))) + COM_VARIABLE_USED(CAR(obj)->data.atom); + } + } + + FORM_ENTER(); + if (!compile && !com->macro) + CompileStackEnter(com, alist->num_arguments, 1); + + /* Build argument list in the interpreter stacks */ + base = ComCall(com, alist, function, arguments, + eval, 1, compile); + + /* If <compile> is set, it is a special form */ + if (compile) + builtin->compile(com, builtin); + + /* Else, generate opcodes to call builtin function */ + else { + com_Call(com, alist->num_arguments, builtin); + CompileStackLeave(com, alist->num_arguments, 1); + } + lisp__data.stack.base = lisp__data.stack.length = base; + FORM_LEAVE(); + } + else if (atom->a_function) { + int macro; + + lambda = atom->property->fun.function; + macro = lambda->funtype == LispMacro; + + /* If <macro> is set, expand macro */ + if (macro) + ComMacroCall(com, alist, function, lambda, arguments); + + else { + if (com->toplevel->type == LispBlockClosure && + com->toplevel->tag == function) + ComRecursiveCall(com, alist, function, arguments); + else { +#if 0 + ComInlineCall(com, alist, function, arguments, + lambda->data.lambda.code); +#else + com_Funcall(com, function, arguments); +#endif + } + } + } + else if (atom->a_defstruct && + atom->property->structure.function != STRUCT_NAME && + atom->property->structure.function != STRUCT_CONSTRUCTOR) { + LispObj *definition = atom->property->structure.definition; + + if (!CONSP(arguments) || CONSP(CDR(arguments))) + LispDestroy("%s: too %s arguments", atom->string, + CONSP(arguments) ? "many" : "few"); + + ComEval(com, CAR(arguments)); + if (atom->property->structure.function == STRUCT_CHECK) + com_Structp(com, definition); + else + com_Struct(com, + atom->property->structure.function, definition); + } + else if (atom->a_compiled) { + FORM_ENTER(); + CompileStackEnter(com, alist->num_arguments, 0); + + /* Build argument list in the interpreter stacks */ + base = ComCall(com, alist, function, arguments, 1, 0, 0); + com_Bytecall(com, alist->num_arguments, + atom->property->fun.function); + CompileStackLeave(com, alist->num_arguments, 0); + lisp__data.env.head = lisp__data.env.length = base; + FORM_LEAVE(); + } + else { + /* Not yet defined function/macro. */ + ++com->warnings; + LispWarning("call to undefined function %s", atom->string); + com_Funcall(com, function, arguments); + } + break; + + case LispLambda_t: + lambda = function->data.lambda.code; + alist = (LispArgList*)function->data.lambda.name->data.opaque.data; + ComInlineCall(com, alist, NIL, arguments, lambda->data.lambda.code); + break; + + case LispCons_t: + if (CAR(function) == Olambda) { + function = EVAL(function); + if (LAMBDAP(function)) { + GC_ENTER(); + + GC_PROTECT(function); + lambda = function->data.lambda.code; + alist = (LispArgList*)function->data.lambda.name->data.opaque.data; + ComInlineCall(com, alist, NIL, arguments, lambda->data.lambda.code); + GC_LEAVE(); + break; + } + } + + default: + /* XXX If bytecode objects are made available, should + * handle it here. */ + LispDestroy("EVAL: %s is invalid as a function", + STROBJ(function)); + /*NOTREACHED*/ + break; + } +} + +/* Generate opcodes for an implicit PROGN */ +static void +ComProgn(LispCom *com, LispObj *code) +{ + if (CONSP(code)) { + for (; CONSP(code); code = CDR(code)) + ComEval(com, CAR(code)); + } + else + /* If no code to execute, empty PROGN returns NIL */ + com_Bytecode(com, XBC_NIL); +} + +/* Generate opcodes to evaluate <object>. */ +static void +ComEval(LispCom *com, LispObj *object) +{ + int offset; + LispObj *form; + + switch (OBJECT_TYPE(object)) { + case LispAtom_t: + if (IN_TAGBODY()) + ComLabel(com, object); + else { + offset = ComGetVariable(com, object); + if (offset >= 0) + /* Load from user stack at relative offset */ + com_Load(com, offset); + else if (offset == SYMBOL_KEYWORD) + com_LoadCon(com, object); + else if (offset == SYMBOL_CONSTANT) + /* Symbol defined as constant, just load it's value */ + com_LoadCon(com, LispGetVar(object)); + else + /* Load value bound to symbol at run time */ + com_LoadSym(com, object->data.atom); + } + break; + + case LispCons_t: { + /* Macro expansion may be done in the object form */ + form = com->form; + com->form = object; + ComFuncall(com, CAR(object), CDR(object), 1); + com->form = form; + } break; + + case LispQuote_t: + com_LoadCon(com, object->data.quote); + break; + + case LispBackquote_t: + /* Macro expansion is stored in the current value of com->form */ + ComMacroBackquote(com, object); + break; + + case LispComma_t: + LispDestroy("EVAL: comma outside of backquote"); + break; + + case LispFunctionQuote_t: + object = object->data.quote; + if (SYMBOLP(object)) + object = LispSymbolFunction(object); + else if (CONSP(object) && CAR(object) == Olambda) { + /* object will only be associated with bytecode later, + * so, make sure it is protected until compilation finishes */ + object = EVAL(object); + RPLACD(com->plist, CONS(CAR(com->plist), CDR(com->plist))); + RPLACA(com->plist, object); + } + else + LispDestroy("FUNCTION: %s is not a function", STROBJ(object)); + com_LoadCon(com, object); + break; + + case LispFixnum_t: + if (IN_TAGBODY()) { + ComLabel(com, object); + break; + } + /*FALLTROUGH*/ + + default: + /* Constant object */ + com_LoadCon(com, object); + break; + } +} + +/*********************************************************************** + * Lambda expansion helper functions + ***********************************************************************/ +static void +ComRecursiveCall(LispCom *com, LispArgList *alist, + LispObj *name, LispObj *arguments) +{ + int base, lex; + + /* Save state */ + lex = lisp__data.env.lex; + + FORM_ENTER(); + + /* Generate code to push function arguments in the stack */ + base = ComCall(com, alist, name, arguments, 1, 0, 0); + + /* Stack will grow this amount */ + CompileStackEnter(com, alist->num_arguments, 0); + +#if 0 + /* Make the variables available at run time */ + com_Bind(com, alist->num_arguments); + com->block->bind += alist->num_arguments; +#endif + + com_BytecodeChar(com, XBC_LETREC, alist->num_arguments); + +#if 0 + /* The variables are now unbound */ + com_Unbind(com, alist->num_arguments); + com->block->bind -= alist->num_arguments; +#endif + + /* Stack length is reduced */ + CompileStackLeave(com, alist->num_arguments, 0); + FORM_LEAVE(); + + /* Restore state */ + lisp__data.env.lex = lex; + lisp__data.env.head = lisp__data.env.length = base; +} + +static void +ComInlineCall(LispCom *com, LispArgList *alist, + LispObj *name, LispObj *arguments, LispObj *lambda) +{ + int base, lex; + + /* Save state */ + lex = lisp__data.env.lex; + + FORM_ENTER(); + /* Start the inline function block */ + CompileIniBlock(com, LispBlockClosure, name); + + /* Generate code to push function arguments in the stack */ + base = ComCall(com, alist, name, arguments, 1, 0, 0); + + /* Stack will grow this amount */ + CompileStackEnter(com, alist->num_arguments, 0); + + /* Make the variables available at run time */ + com_Bind(com, alist->num_arguments); + com->block->bind += alist->num_arguments; + + /* Expand the lambda list */ + ComProgn(com, lambda); + + /* The variables are now unbound */ + com_Unbind(com, alist->num_arguments); + com->block->bind -= alist->num_arguments; + + /* Stack length is reduced */ + CompileStackLeave(com, alist->num_arguments, 0); + + /* Finish the inline function block */ + CompileFiniBlock(com); + FORM_LEAVE(); + + /* Restore state */ + lisp__data.env.lex = lex; + lisp__data.env.head = lisp__data.env.length = base; +} + +/*********************************************************************** + * Macro expansion helper functions. + ***********************************************************************/ +static LispObj * +ComMacroExpandBackquote(LispCom *com, LispObj *object) +{ + return (LispEvalBackquote(object->data.quote, 1)); +} + +static LispObj * +ComMacroExpandFuncall(LispCom *com, LispObj *function, LispObj *arguments) +{ + return (LispFuncall(function, arguments, 1)); +} + +static LispObj * +ComMacroExpandEval(LispCom *com, LispObj *object) +{ + LispObj *result; + + switch (OBJECT_TYPE(object)) { + case LispAtom_t: + result = LispGetVar(object); + + /* Macro expansion requires bounded symbols */ + if (result == NULL) + LispDestroy("EVAL: the variable %s is unbound", + STROBJ(object)); + break; + + case LispCons_t: + result = ComMacroExpandFuncall(com, CAR(object), CDR(object)); + break; + + case LispQuote_t: + result = object->data.quote; + break; + + case LispBackquote_t: + result = ComMacroExpandBackquote(com, object); + break; + + case LispComma_t: + LispDestroy("EVAL: comma outside of backquote"); + + case LispFunctionQuote_t: + result = EVAL(object); + break; + + default: + result = object; + break; + } + + return (result); +} + +static LispObj * +ComMacroExpand(LispCom *com, LispObj *lambda) +{ + LispObj *result, **presult = &result; + int jumped, *pjumped = &jumped, backquote, *pbackquote = &backquote; + LispBlock *block; + + int interpreter_lex, interpreter_head, interpreter_base; + + /* Save interpreter state */ + interpreter_base = lisp__data.stack.length; + interpreter_head = lisp__data.env.length; + interpreter_lex = lisp__data.env.lex; + + /* Use the variables */ + *presult = NIL; + *pjumped = 1; + *pbackquote = !CONSP(lambda); + + block = LispBeginBlock(NIL, LispBlockProtect); + if (setjmp(block->jmp) == 0) { + if (!backquote) { + for (; CONSP(lambda); lambda = CDR(lambda)) + result = ComMacroExpandEval(com, CAR(lambda)); + } + else + result = ComMacroExpandBackquote(com, lambda); + + *pjumped = 0; + } + LispEndBlock(block); + + /* If tried to jump out of the macro expansion block */ + if (!lisp__data.destroyed && jumped) + LispDestroy("*** EVAL: bad jump in macro expansion"); + + /* Macro expansion did something wrong */ + if (lisp__data.destroyed) { + LispMessage("*** EVAL: aborting macro expansion"); + LispDestroy("."); + } + + /* Restore interpreter state */ + lisp__data.env.lex = interpreter_lex; + lisp__data.stack.length = interpreter_base; + lisp__data.env.head = lisp__data.env.length = interpreter_head; + + return (result); +} + +static void +ComMacroCall(LispCom *com, LispArgList *alist, + LispObj *name, LispObj *lambda, LispObj *arguments) +{ + int base; + LispObj *body; + + ++com->macro; + base = ComCall(com, alist, name, arguments, 0, 0, 0); + body = lambda->data.lambda.code; + body = ComMacroExpand(com, body); + --com->macro; + lisp__data.env.head = lisp__data.env.length = base; + + /* Macro is expanded, store the result */ + CAR(com->form) = body; + ComEval(com, body); +} + +static void +ComMacroBackquote(LispCom *com, LispObj *lambda) +{ + LispObj *body; + + ++com->macro; + body = ComMacroExpand(com, lambda); + --com->macro; + + /* Macro is expanded, store the result */ + CAR(com->form) = body; + + com_LoadCon(com, body); +} |