* Copyright (C) 2012, 2013
* Wolfgang Bumiller
* Dale Weiler
- *
+ *
* 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
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*/
-#include <stdio.h>
-#include <stdarg.h>
+#include <string.h>
+#include <math.h>
-#include "gmqcc.h"
-#include "lexer.h"
-#include "ast.h"
+#include "parser.h"
-/* beginning of locals */
#define PARSER_HT_LOCALS 2
-
-#define PARSER_HT_SIZE 1024
-#define TYPEDEF_HT_SIZE 16
-
-enum parser_pot { POT_PAREN, POT_TERNARY1, POT_TERNARY2 };
-typedef struct {
- lex_file *lex;
- int tok;
-
- ast_expression **globals;
- ast_expression **fields;
- ast_function **functions;
- ast_value **imm_float;
- ast_value **imm_string;
- ast_value **imm_vector;
- size_t translated;
-
- /* must be deleted first, they reference immediates and values */
- ast_value **accessors;
-
- ast_value *imm_float_zero;
- ast_value *imm_float_one;
- ast_value *imm_vector_zero;
- ast_value *nil;
- ast_value *reserved_version;
-
- size_t crc_globals;
- size_t crc_fields;
-
- ast_function *function;
-
- /* All the labels the function defined...
- * Should they be in ast_function instead?
- */
- ast_label **labels;
- ast_goto **gotos;
- const char **breaks;
- const char **continues;
-
- /* A list of hashtables for each scope */
- ht *variables;
- ht htfields;
- ht htglobals;
- ht *typedefs;
-
- /* same as above but for the spelling corrector */
- correct_trie_t **correct_variables;
- size_t ***correct_variables_score; /* vector of vector of size_t* */
-
- /* not to be used directly, we use the hash table */
- ast_expression **_locals;
- size_t *_blocklocals;
- ast_value **_typedefs;
- size_t *_blocktypedefs;
- lex_ctx *_block_ctx;
-
- /* we store the '=' operator info */
- const oper_info *assign_op;
-
- /* Keep track of our ternary vs parenthesis nesting state.
- * If we reach a 'comma' operator in a ternary without a paren,
- * we shall trigger -Wternary-precedence.
- */
- enum parser_pot *pot;
-
- /* magic values */
- ast_value *const_vec[3];
-
- /* pragma flags */
- bool noref;
-} parser_t;
-
-static const ast_expression *intrinsic_debug_typestring = (ast_expression*)0x10;
+#define PARSER_HT_SIZE 512
+#define TYPEDEF_HT_SIZE 512
static void parser_enterblock(parser_t *parser);
static bool parser_leaveblock(parser_t *parser);
static bool parse_statement(parser_t *parser, ast_block *block, ast_expression **out, bool allow_cases);
static ast_expression* parse_expression_leave(parser_t *parser, bool stopatcomma, bool truthvalue, bool with_labels);
static ast_expression* parse_expression(parser_t *parser, bool stopatcomma, bool with_labels);
+static ast_value* parser_create_array_setter_proto(parser_t *parser, ast_value *array, const char *funcname);
+static ast_value* parser_create_array_getter_proto(parser_t *parser, ast_value *array, const ast_expression *elemtype, const char *funcname);
+static ast_value *parse_typename(parser_t *parser, ast_value **storebase, ast_value *cached_typedef);
static void parseerror(parser_t *parser, const char *fmt, ...)
{
return r;
}
-static bool GMQCC_WARN genwarning(lex_ctx ctx, int warntype, const char *fmt, ...)
-{
- bool r;
- va_list ap;
- va_start(ap, fmt);
- r = vcompile_warning(ctx, warntype, fmt, ap);
- va_end(ap);
- return r;
-}
-
-/**********************************************************************
- * some maths used for constant folding
- */
-
-vector vec3_add(vector a, vector b)
-{
- vector out;
- out.x = a.x + b.x;
- out.y = a.y + b.y;
- out.z = a.z + b.z;
- return out;
-}
-
-vector vec3_sub(vector a, vector b)
-{
- vector out;
- out.x = a.x - b.x;
- out.y = a.y - b.y;
- out.z = a.z - b.z;
- return out;
-}
-
-qcfloat vec3_mulvv(vector a, vector b)
-{
- return (a.x * b.x + a.y * b.y + a.z * b.z);
-}
-
-vector vec3_mulvf(vector a, float b)
-{
- vector out;
- out.x = a.x * b;
- out.y = a.y * b;
- out.z = a.z * b;
- return out;
-}
-
/**********************************************************************
* parsing
*/
-bool parser_next(parser_t *parser)
+static bool parser_next(parser_t *parser)
{
/* lex_do kills the previous token */
parser->tok = lex_do(parser->lex);
#define parser_tokval(p) ((p)->lex->tok.value)
#define parser_token(p) (&((p)->lex->tok))
-#define parser_ctx(p) ((p)->lex->tok.ctx)
-
-static ast_value* parser_const_float(parser_t *parser, double d)
-{
- size_t i;
- ast_value *out;
- for (i = 0; i < vec_size(parser->imm_float); ++i) {
- const double compare = parser->imm_float[i]->constval.vfloat;
- if (memcmp((const void*)&compare, (const void *)&d, sizeof(double)) == 0)
- return parser->imm_float[i];
- }
- out = ast_value_new(parser_ctx(parser), "#IMMEDIATE", TYPE_FLOAT);
- out->cvq = CV_CONST;
- out->hasvalue = true;
- out->constval.vfloat = d;
- vec_push(parser->imm_float, out);
- return out;
-}
-
-static ast_value* parser_const_float_0(parser_t *parser)
-{
- if (!parser->imm_float_zero)
- parser->imm_float_zero = parser_const_float(parser, 0);
- return parser->imm_float_zero;
-}
-
-static ast_value* parser_const_float_1(parser_t *parser)
-{
- if (!parser->imm_float_one)
- parser->imm_float_one = parser_const_float(parser, 1);
- return parser->imm_float_one;
-}
-static char *parser_strdup(const char *str)
+char *parser_strdup(const char *str)
{
if (str && !*str) {
/* actually dup empty strings */
return util_strdup(str);
}
-static ast_value* parser_const_string(parser_t *parser, const char *str, bool dotranslate)
-{
- size_t i;
- ast_value *out;
- for (i = 0; i < vec_size(parser->imm_string); ++i) {
- if (!strcmp(parser->imm_string[i]->constval.vstring, str))
- return parser->imm_string[i];
- }
- if (dotranslate) {
- char name[32];
- snprintf(name, sizeof(name), "dotranslate_%lu", (unsigned long)(parser->translated++));
- out = ast_value_new(parser_ctx(parser), name, TYPE_STRING);
- } else
- out = ast_value_new(parser_ctx(parser), "#IMMEDIATE", TYPE_STRING);
- out->cvq = CV_CONST;
- out->hasvalue = true;
- out->constval.vstring = parser_strdup(str);
- vec_push(parser->imm_string, out);
- return out;
-}
-
-static ast_value* parser_const_vector(parser_t *parser, vector v)
-{
- size_t i;
- ast_value *out;
- for (i = 0; i < vec_size(parser->imm_vector); ++i) {
- if (!memcmp(&parser->imm_vector[i]->constval.vvec, &v, sizeof(v)))
- return parser->imm_vector[i];
- }
- out = ast_value_new(parser_ctx(parser), "#IMMEDIATE", TYPE_VECTOR);
- out->cvq = CV_CONST;
- out->hasvalue = true;
- out->constval.vvec = v;
- vec_push(parser->imm_vector, out);
- return out;
-}
-
-static ast_value* parser_const_vector_f(parser_t *parser, float x, float y, float z)
-{
- vector v;
- v.x = x;
- v.y = y;
- v.z = z;
- return parser_const_vector(parser, v);
-}
-
-static ast_value* parser_const_vector_0(parser_t *parser)
-{
- if (!parser->imm_vector_zero)
- parser->imm_vector_zero = parser_const_vector_f(parser, 0, 0, 0);
- return parser->imm_vector_zero;
-}
-
static ast_expression* parser_find_field(parser_t *parser, const char *name)
{
return ( ast_expression*)util_htget(parser->htfields, name);
return NULL;
}
-static ast_expression* parser_find_global(parser_t *parser, const char *name)
+ast_expression* parser_find_global(parser_t *parser, const char *name)
{
+ ast_expression *var = (ast_expression*)util_htget(parser->aliases, parser_tokval(parser));
+ if (var)
+ return var;
return (ast_expression*)util_htget(parser->htglobals, name);
}
typedef struct
{
size_t etype; /* 0 = expression, others are operators */
- int paren;
+ bool isparen;
size_t off;
ast_expression *out;
ast_block *block; /* for commas and function calls */
- lex_ctx ctx;
+ lex_ctx_t ctx;
} sy_elem;
+
+enum {
+ PAREN_EXPR,
+ PAREN_FUNC,
+ PAREN_INDEX,
+ PAREN_TERNARY1,
+ PAREN_TERNARY2
+};
typedef struct
{
- sy_elem *out;
- sy_elem *ops;
+ sy_elem *out;
+ sy_elem *ops;
+ size_t *argc;
+ unsigned int *paren;
} shunt;
-#define SY_PAREN_EXPR '('
-#define SY_PAREN_FUNC 'f'
-#define SY_PAREN_INDEX '['
-#define SY_PAREN_TERNARY '?'
-
-static sy_elem syexp(lex_ctx ctx, ast_expression *v) {
+static sy_elem syexp(lex_ctx_t ctx, ast_expression *v) {
sy_elem e;
e.etype = 0;
e.off = 0;
e.out = v;
e.block = NULL;
e.ctx = ctx;
- e.paren = 0;
+ e.isparen = false;
return e;
}
-static sy_elem syblock(lex_ctx ctx, ast_block *v) {
+static sy_elem syblock(lex_ctx_t ctx, ast_block *v) {
sy_elem e;
e.etype = 0;
e.off = 0;
e.out = (ast_expression*)v;
e.block = v;
e.ctx = ctx;
- e.paren = 0;
+ e.isparen = false;
return e;
}
-static sy_elem syop(lex_ctx ctx, const oper_info *op) {
+static sy_elem syop(lex_ctx_t ctx, const oper_info *op) {
sy_elem e;
e.etype = 1 + (op - operators);
e.off = 0;
e.out = NULL;
e.block = NULL;
e.ctx = ctx;
- e.paren = 0;
+ e.isparen = false;
return e;
}
-static sy_elem syparen(lex_ctx ctx, int p, size_t off) {
+static sy_elem syparen(lex_ctx_t ctx, size_t off) {
sy_elem e;
e.etype = 0;
e.off = off;
e.out = NULL;
e.block = NULL;
e.ctx = ctx;
- e.paren = p;
+ e.isparen = true;
return e;
}
-#ifdef DEBUGSHUNT
-# define DEBUGSHUNTDO(x) x
-#else
-# define DEBUGSHUNTDO(x)
-#endif
-
/* With regular precedence rules, ent.foo[n] is the same as (ent.foo)[n],
* so we need to rotate it to become ent.(foo[n]).
*/
static bool rotate_entfield_array_index_nodes(ast_expression **out)
{
- ast_array_index *index;
+ ast_array_index *index, *oldindex;
ast_entfield *entfield;
ast_value *field;
ast_expression *sub;
ast_expression *entity;
- lex_ctx ctx = ast_ctx(*out);
+ lex_ctx_t ctx = ast_ctx(*out);
if (!ast_istype(*out, ast_array_index))
return false;
sub = index->index;
entity = entfield->entity;
- ast_delete(index);
+ oldindex = index;
index = ast_array_index_new(ctx, (ast_expression*)field, sub);
entfield = ast_entfield_new(ctx, entity, (ast_expression*)index);
*out = (ast_expression*)entfield;
+ oldindex->array = NULL;
+ oldindex->index = NULL;
+ ast_delete(oldindex);
+
return true;
}
-static bool immediate_is_true(lex_ctx ctx, ast_value *v)
+static bool check_write_to(lex_ctx_t ctx, ast_expression *expr)
{
- switch (v->expression.vtype) {
- case TYPE_FLOAT:
- return !!v->constval.vfloat;
- case TYPE_INTEGER:
- return !!v->constval.vint;
- case TYPE_VECTOR:
- if (OPTS_FLAG(CORRECT_LOGIC))
- return v->constval.vvec.x &&
- v->constval.vvec.y &&
- v->constval.vvec.z;
- else
- return !!(v->constval.vvec.x);
- case TYPE_STRING:
- if (!v->constval.vstring)
+ if (ast_istype(expr, ast_value)) {
+ ast_value *val = (ast_value*)expr;
+ if (val->cvq == CV_CONST) {
+ if (val->name[0] == '#') {
+ compile_error(ctx, "invalid assignment to a literal constant");
return false;
- if (v->constval.vstring && OPTS_FLAG(TRUE_EMPTY_STRINGS))
- return true;
- return !!v->constval.vstring[0];
- default:
- compile_error(ctx, "internal error: immediate_is_true on invalid type");
- return !!v->constval.vfunc;
+ }
+ /*
+ * To work around quakeworld we must elide the error and make it
+ * a warning instead.
+ */
+ if (OPTS_OPTION_U32(OPTION_STANDARD) != COMPILER_QCC)
+ compile_error(ctx, "assignment to constant `%s`", val->name);
+ else
+ (void)!compile_warning(ctx, WARN_CONST_OVERWRITE, "assignment to constant `%s`", val->name);
+ return false;
+ }
}
+ return true;
}
static bool parser_sy_apply_operator(parser_t *parser, shunt *sy)
{
const oper_info *op;
- lex_ctx ctx;
+ lex_ctx_t ctx;
ast_expression *out = NULL;
ast_expression *exprs[3];
ast_block *blocks[3];
- ast_value *asvalue[3];
ast_binstore *asbinstore;
size_t i, assignop, addop, subop;
- qcint generated_op = 0;
+ qcint_t generated_op = 0;
char ty1[1024];
char ty2[1024];
return false;
}
- if (vec_last(sy->ops).paren) {
+ if (vec_last(sy->ops).isparen) {
parseerror(parser, "unmatched parenthesis");
return false;
}
op = &operators[vec_last(sy->ops).etype - 1];
ctx = vec_last(sy->ops).ctx;
- DEBUGSHUNTDO(con_out("apply %s\n", op->op));
-
if (vec_size(sy->out) < op->operands) {
- parseerror(parser, "internal error: not enough operands: %i (operator %s (%i))", vec_size(sy->out),
- op->op, (int)op->id);
+ if (op->flags & OP_PREFIX)
+ compile_error(ctx, "expected expression after unary operator `%s`", op->op, (int)op->id);
+ else /* this should have errored previously already */
+ compile_error(ctx, "expected expression after operator `%s`", op->op, (int)op->id);
return false;
}
for (i = 0; i < op->operands; ++i) {
exprs[i] = sy->out[vec_size(sy->out)+i].out;
blocks[i] = sy->out[vec_size(sy->out)+i].block;
- asvalue[i] = (ast_value*)exprs[i];
- if (exprs[i]->expression.vtype == TYPE_NOEXPR &&
+ if (exprs[i]->vtype == TYPE_NOEXPR &&
!(i != 0 && op->id == opid2('?',':')) &&
!(i == 1 && op->id == opid1('.')))
{
}
if (blocks[0] && !vec_size(blocks[0]->exprs) && op->id != opid1(',')) {
- parseerror(parser, "internal error: operator cannot be applied on empty blocks");
+ compile_error(ctx, "internal error: operator cannot be applied on empty blocks");
return false;
}
#define NotSameType(T) \
- (exprs[0]->expression.vtype != exprs[1]->expression.vtype || \
- exprs[0]->expression.vtype != T)
-#define CanConstFold1(A) \
- (ast_istype((A), ast_value) && ((ast_value*)(A))->hasvalue && (((ast_value*)(A))->cvq == CV_CONST) &&\
- (A)->expression.vtype != TYPE_FUNCTION)
-#define CanConstFold(A, B) \
- (CanConstFold1(A) && CanConstFold1(B))
-#define ConstV(i) (asvalue[(i)]->constval.vvec)
-#define ConstF(i) (asvalue[(i)]->constval.vfloat)
-#define ConstS(i) (asvalue[(i)]->constval.vstring)
+ (exprs[0]->vtype != exprs[1]->vtype || \
+ exprs[0]->vtype != T)
switch (op->id)
{
default:
- parseerror(parser, "internal error: unhandled operator: %s (%i)", op->op, (int)op->id);
+ compile_error(ctx, "internal error: unhandled operator: %s (%i)", op->op, (int)op->id);
return false;
case opid1('.'):
- if (exprs[0]->expression.vtype == TYPE_VECTOR &&
- exprs[1]->expression.vtype == TYPE_NOEXPR)
+ if (exprs[0]->vtype == TYPE_VECTOR &&
+ exprs[1]->vtype == TYPE_NOEXPR)
{
if (exprs[1] == (ast_expression*)parser->const_vec[0])
out = (ast_expression*)ast_member_new(ctx, exprs[0], 0, NULL);
else if (exprs[1] == (ast_expression*)parser->const_vec[2])
out = (ast_expression*)ast_member_new(ctx, exprs[0], 2, NULL);
else {
- parseerror(parser, "access to invalid vector component");
+ compile_error(ctx, "access to invalid vector component");
return false;
}
}
- else if (exprs[0]->expression.vtype == TYPE_ENTITY) {
- if (exprs[1]->expression.vtype != TYPE_FIELD) {
- parseerror(parser, "type error: right hand of member-operand should be an entity-field");
+ else if (exprs[0]->vtype == TYPE_ENTITY) {
+ if (exprs[1]->vtype != TYPE_FIELD) {
+ compile_error(ast_ctx(exprs[1]), "type error: right hand of member-operand should be an entity-field");
return false;
}
out = (ast_expression*)ast_entfield_new(ctx, exprs[0], exprs[1]);
}
- else if (exprs[0]->expression.vtype == TYPE_VECTOR) {
- parseerror(parser, "vectors cannot be accessed this way");
+ else if (exprs[0]->vtype == TYPE_VECTOR) {
+ compile_error(ast_ctx(exprs[1]), "vectors cannot be accessed this way");
return false;
}
else {
- parseerror(parser, "type error: member-of operator on something that is not an entity or vector");
+ compile_error(ast_ctx(exprs[1]), "type error: member-of operator on something that is not an entity or vector");
return false;
}
break;
case opid1('['):
- if (exprs[0]->expression.vtype != TYPE_ARRAY &&
- !(exprs[0]->expression.vtype == TYPE_FIELD &&
- exprs[0]->expression.next->expression.vtype == TYPE_ARRAY))
+ if (exprs[0]->vtype != TYPE_ARRAY &&
+ !(exprs[0]->vtype == TYPE_FIELD &&
+ exprs[0]->next->vtype == TYPE_ARRAY))
{
ast_type_to_string(exprs[0], ty1, sizeof(ty1));
- parseerror(parser, "cannot index value of type %s", ty1);
+ compile_error(ast_ctx(exprs[0]), "cannot index value of type %s", ty1);
return false;
}
- if (exprs[1]->expression.vtype != TYPE_FLOAT) {
+ if (exprs[1]->vtype != TYPE_FLOAT) {
ast_type_to_string(exprs[0], ty1, sizeof(ty1));
- parseerror(parser, "index must be of type float, not %s", ty1);
+ compile_error(ast_ctx(exprs[1]), "index must be of type float, not %s", ty1);
return false;
}
out = (ast_expression*)ast_array_index_new(ctx, exprs[0], exprs[1]);
{
#if 0
/* This is not broken in fteqcc anymore */
- if (opts.standard != COMPILER_GMQCC) {
+ if (OPTS_OPTION_U32(OPTION_STANDARD) != COMPILER_GMQCC) {
/* this error doesn't need to make us bail out */
(void)!parsewarning(parser, WARN_EXTENSIONS,
"accessing array-field members of an entity without parenthesis\n"
break;
case opid1(','):
+ if (vec_size(sy->paren) && vec_last(sy->paren) == PAREN_FUNC) {
+ vec_push(sy->out, syexp(ctx, exprs[0]));
+ vec_push(sy->out, syexp(ctx, exprs[1]));
+ vec_last(sy->argc)++;
+ return true;
+ }
if (blocks[0]) {
if (!ast_block_add_expr(blocks[0], exprs[1]))
return false;
return false;
}
}
- if (!ast_block_set_type(blocks[0], exprs[1]))
- return false;
+ ast_block_set_type(blocks[0], exprs[1]);
vec_push(sy->out, syblock(ctx, blocks[0]));
return true;
out = exprs[0];
break;
case opid2('-','P'):
- switch (exprs[0]->expression.vtype) {
- case TYPE_FLOAT:
- if (CanConstFold1(exprs[0]))
- out = (ast_expression*)parser_const_float(parser, -ConstF(0));
- else
- out = (ast_expression*)ast_binary_new(ctx, INSTR_SUB_F,
- (ast_expression*)parser_const_float_0(parser),
- exprs[0]);
- break;
- case TYPE_VECTOR:
- if (CanConstFold1(exprs[0]))
- out = (ast_expression*)parser_const_vector_f(parser,
- -ConstV(0).x, -ConstV(0).y, -ConstV(0).z);
- else
- out = (ast_expression*)ast_binary_new(ctx, INSTR_SUB_V,
- (ast_expression*)parser_const_vector_0(parser),
- exprs[0]);
- break;
- default:
- parseerror(parser, "invalid types used in expression: cannot negate type %s",
- type_name[exprs[0]->expression.vtype]);
+ if ((out = fold_op(parser->fold, op, exprs)))
+ break;
+ if (exprs[0]->vtype != TYPE_FLOAT &&
+ exprs[0]->vtype != TYPE_VECTOR) {
+ compile_error(ctx, "invalid types used in unary expression: cannot negate type %s",
+ type_name[exprs[0]->vtype]);
return false;
}
+ out = (ast_expression*)ast_unary_new(ctx, (VINSTR_NEG_F-TYPE_FLOAT) + exprs[0]->vtype, exprs[0]);
break;
case opid2('!','P'):
- switch (exprs[0]->expression.vtype) {
- case TYPE_FLOAT:
- if (CanConstFold1(exprs[0]))
- out = (ast_expression*)parser_const_float(parser, !ConstF(0));
- else
+ if (!(out = fold_op(parser->fold, op, exprs))) {
+ switch (exprs[0]->vtype) {
+ case TYPE_FLOAT:
out = (ast_expression*)ast_unary_new(ctx, INSTR_NOT_F, exprs[0]);
- break;
- case TYPE_VECTOR:
- if (CanConstFold1(exprs[0]))
- out = (ast_expression*)parser_const_float(parser,
- (!ConstV(0).x && !ConstV(0).y && !ConstV(0).z));
- else
+ break;
+ case TYPE_VECTOR:
out = (ast_expression*)ast_unary_new(ctx, INSTR_NOT_V, exprs[0]);
- break;
- case TYPE_STRING:
- if (CanConstFold1(exprs[0])) {
- if (OPTS_FLAG(TRUE_EMPTY_STRINGS))
- out = (ast_expression*)parser_const_float(parser, !ConstS(0));
- else
- out = (ast_expression*)parser_const_float(parser, !ConstS(0) || !*ConstS(0));
- } else {
+ break;
+ case TYPE_STRING:
if (OPTS_FLAG(TRUE_EMPTY_STRINGS))
out = (ast_expression*)ast_unary_new(ctx, INSTR_NOT_F, exprs[0]);
else
out = (ast_expression*)ast_unary_new(ctx, INSTR_NOT_S, exprs[0]);
- }
- break;
- /* we don't constant-fold NOT for these types */
- case TYPE_ENTITY:
- out = (ast_expression*)ast_unary_new(ctx, INSTR_NOT_ENT, exprs[0]);
- break;
- case TYPE_FUNCTION:
- out = (ast_expression*)ast_unary_new(ctx, INSTR_NOT_FNC, exprs[0]);
- break;
- default:
- parseerror(parser, "invalid types used in expression: cannot logically negate type %s",
- type_name[exprs[0]->expression.vtype]);
- return false;
+ break;
+ /* we don't constant-fold NOT for these types */
+ case TYPE_ENTITY:
+ out = (ast_expression*)ast_unary_new(ctx, INSTR_NOT_ENT, exprs[0]);
+ break;
+ case TYPE_FUNCTION:
+ out = (ast_expression*)ast_unary_new(ctx, INSTR_NOT_FNC, exprs[0]);
+ break;
+ default:
+ compile_error(ctx, "invalid types used in expression: cannot logically negate type %s",
+ type_name[exprs[0]->vtype]);
+ return false;
+ }
}
break;
case opid1('+'):
- if (exprs[0]->expression.vtype != exprs[1]->expression.vtype ||
- (exprs[0]->expression.vtype != TYPE_VECTOR && exprs[0]->expression.vtype != TYPE_FLOAT) )
+ if (exprs[0]->vtype != exprs[1]->vtype ||
+ (exprs[0]->vtype != TYPE_VECTOR && exprs[0]->vtype != TYPE_FLOAT) )
{
- parseerror(parser, "invalid types used in expression: cannot add type %s and %s",
- type_name[exprs[0]->expression.vtype],
- type_name[exprs[1]->expression.vtype]);
+ compile_error(ctx, "invalid types used in expression: cannot add type %s and %s",
+ type_name[exprs[0]->vtype],
+ type_name[exprs[1]->vtype]);
return false;
}
- switch (exprs[0]->expression.vtype) {
- case TYPE_FLOAT:
- if (CanConstFold(exprs[0], exprs[1]))
- {
- out = (ast_expression*)parser_const_float(parser, ConstF(0) + ConstF(1));
- }
- else
+ if (!(out = fold_op(parser->fold, op, exprs))) {
+ switch (exprs[0]->vtype) {
+ case TYPE_FLOAT:
out = (ast_expression*)ast_binary_new(ctx, INSTR_ADD_F, exprs[0], exprs[1]);
- break;
- case TYPE_VECTOR:
- if (CanConstFold(exprs[0], exprs[1]))
- out = (ast_expression*)parser_const_vector(parser, vec3_add(ConstV(0), ConstV(1)));
- else
+ break;
+ case TYPE_VECTOR:
out = (ast_expression*)ast_binary_new(ctx, INSTR_ADD_V, exprs[0], exprs[1]);
- break;
- default:
- parseerror(parser, "invalid types used in expression: cannot add type %s and %s",
- type_name[exprs[0]->expression.vtype],
- type_name[exprs[1]->expression.vtype]);
- return false;
- };
+ break;
+ default:
+ compile_error(ctx, "invalid types used in expression: cannot add type %s and %s",
+ type_name[exprs[0]->vtype],
+ type_name[exprs[1]->vtype]);
+ return false;
+ }
+ }
break;
case opid1('-'):
- if (exprs[0]->expression.vtype != exprs[1]->expression.vtype ||
- (exprs[0]->expression.vtype != TYPE_VECTOR && exprs[0]->expression.vtype != TYPE_FLOAT) )
+ if (exprs[0]->vtype != exprs[1]->vtype ||
+ (exprs[0]->vtype != TYPE_VECTOR && exprs[0]->vtype != TYPE_FLOAT))
{
- parseerror(parser, "invalid types used in expression: cannot subtract type %s from %s",
- type_name[exprs[1]->expression.vtype],
- type_name[exprs[0]->expression.vtype]);
+ compile_error(ctx, "invalid types used in expression: cannot subtract type %s from %s",
+ type_name[exprs[1]->vtype],
+ type_name[exprs[0]->vtype]);
return false;
}
- switch (exprs[0]->expression.vtype) {
- case TYPE_FLOAT:
- if (CanConstFold(exprs[0], exprs[1]))
- out = (ast_expression*)parser_const_float(parser, ConstF(0) - ConstF(1));
- else
+ if (!(out = fold_op(parser->fold, op, exprs))) {
+ switch (exprs[0]->vtype) {
+ case TYPE_FLOAT:
out = (ast_expression*)ast_binary_new(ctx, INSTR_SUB_F, exprs[0], exprs[1]);
- break;
- case TYPE_VECTOR:
- if (CanConstFold(exprs[0], exprs[1]))
- out = (ast_expression*)parser_const_vector(parser, vec3_sub(ConstV(0), ConstV(1)));
- else
+ break;
+ case TYPE_VECTOR:
out = (ast_expression*)ast_binary_new(ctx, INSTR_SUB_V, exprs[0], exprs[1]);
- break;
- default:
- parseerror(parser, "invalid types used in expression: cannot subtract type %s from %s",
- type_name[exprs[1]->expression.vtype],
- type_name[exprs[0]->expression.vtype]);
- return false;
- };
+ break;
+ default:
+ compile_error(ctx, "invalid types used in expression: cannot subtract type %s from %s",
+ type_name[exprs[1]->vtype],
+ type_name[exprs[0]->vtype]);
+ return false;
+ }
+ }
break;
case opid1('*'):
- if (exprs[0]->expression.vtype != exprs[1]->expression.vtype &&
- !(exprs[0]->expression.vtype == TYPE_VECTOR &&
- exprs[1]->expression.vtype == TYPE_FLOAT) &&
- !(exprs[1]->expression.vtype == TYPE_VECTOR &&
- exprs[0]->expression.vtype == TYPE_FLOAT)
+ if (exprs[0]->vtype != exprs[1]->vtype &&
+ !(exprs[0]->vtype == TYPE_VECTOR &&
+ exprs[1]->vtype == TYPE_FLOAT) &&
+ !(exprs[1]->vtype == TYPE_VECTOR &&
+ exprs[0]->vtype == TYPE_FLOAT)
)
{
- parseerror(parser, "invalid types used in expression: cannot multiply types %s and %s",
- type_name[exprs[1]->expression.vtype],
- type_name[exprs[0]->expression.vtype]);
+ compile_error(ctx, "invalid types used in expression: cannot multiply types %s and %s",
+ type_name[exprs[1]->vtype],
+ type_name[exprs[0]->vtype]);
return false;
}
- switch (exprs[0]->expression.vtype) {
- case TYPE_FLOAT:
- if (exprs[1]->expression.vtype == TYPE_VECTOR)
- {
- if (CanConstFold(exprs[0], exprs[1]))
- out = (ast_expression*)parser_const_vector(parser, vec3_mulvf(ConstV(1), ConstF(0)));
- else
+ if (!(out = fold_op(parser->fold, op, exprs))) {
+ switch (exprs[0]->vtype) {
+ case TYPE_FLOAT:
+ if (exprs[1]->vtype == TYPE_VECTOR)
out = (ast_expression*)ast_binary_new(ctx, INSTR_MUL_FV, exprs[0], exprs[1]);
- }
- else
- {
- if (CanConstFold(exprs[0], exprs[1]))
- out = (ast_expression*)parser_const_float(parser, ConstF(0) * ConstF(1));
else
out = (ast_expression*)ast_binary_new(ctx, INSTR_MUL_F, exprs[0], exprs[1]);
- }
- break;
- case TYPE_VECTOR:
- if (exprs[1]->expression.vtype == TYPE_FLOAT)
- {
- if (CanConstFold(exprs[0], exprs[1]))
- out = (ast_expression*)parser_const_vector(parser, vec3_mulvf(ConstV(0), ConstF(1)));
- else
+ break;
+ case TYPE_VECTOR:
+ if (exprs[1]->vtype == TYPE_FLOAT)
out = (ast_expression*)ast_binary_new(ctx, INSTR_MUL_VF, exprs[0], exprs[1]);
- }
- else
- {
- if (CanConstFold(exprs[0], exprs[1]))
- out = (ast_expression*)parser_const_float(parser, vec3_mulvv(ConstV(0), ConstV(1)));
- else if (OPTS_OPTIMIZATION(OPTIM_VECTOR_COMPONENTS) && CanConstFold1(exprs[0])) {
- vector vec = ConstV(0);
- if (!vec.y && !vec.z) { /* 'n 0 0' * v */
- ++opts_optimizationcount[OPTIM_VECTOR_COMPONENTS];
- out = (ast_expression*)ast_member_new(ctx, exprs[1], 0, NULL);
- out->expression.node.keep = false;
- ((ast_member*)out)->rvalue = true;
- if (vec.x != 1)
- out = (ast_expression*)ast_binary_new(ctx, INSTR_MUL_F, (ast_expression*)parser_const_float(parser, vec.x), out);
- }
- else if (!vec.x && !vec.z) { /* '0 n 0' * v */
- ++opts_optimizationcount[OPTIM_VECTOR_COMPONENTS];
- out = (ast_expression*)ast_member_new(ctx, exprs[1], 1, NULL);
- out->expression.node.keep = false;
- ((ast_member*)out)->rvalue = true;
- if (vec.y != 1)
- out = (ast_expression*)ast_binary_new(ctx, INSTR_MUL_F, (ast_expression*)parser_const_float(parser, vec.y), out);
- }
- else if (!vec.x && !vec.y) { /* '0 n 0' * v */
- ++opts_optimizationcount[OPTIM_VECTOR_COMPONENTS];
- out = (ast_expression*)ast_member_new(ctx, exprs[1], 2, NULL);
- out->expression.node.keep = false;
- ((ast_member*)out)->rvalue = true;
- if (vec.z != 1)
- out = (ast_expression*)ast_binary_new(ctx, INSTR_MUL_F, (ast_expression*)parser_const_float(parser, vec.z), out);
- }
- else
- out = (ast_expression*)ast_binary_new(ctx, INSTR_MUL_V, exprs[0], exprs[1]);
- }
- else if (OPTS_OPTIMIZATION(OPTIM_VECTOR_COMPONENTS) && CanConstFold1(exprs[1])) {
- vector vec = ConstV(1);
- if (!vec.y && !vec.z) { /* v * 'n 0 0' */
- ++opts_optimizationcount[OPTIM_VECTOR_COMPONENTS];
- out = (ast_expression*)ast_member_new(ctx, exprs[0], 0, NULL);
- out->expression.node.keep = false;
- ((ast_member*)out)->rvalue = true;
- if (vec.x != 1)
- out = (ast_expression*)ast_binary_new(ctx, INSTR_MUL_F, out, (ast_expression*)parser_const_float(parser, vec.x));
- }
- else if (!vec.x && !vec.z) { /* v * '0 n 0' */
- ++opts_optimizationcount[OPTIM_VECTOR_COMPONENTS];
- out = (ast_expression*)ast_member_new(ctx, exprs[0], 1, NULL);
- out->expression.node.keep = false;
- ((ast_member*)out)->rvalue = true;
- if (vec.y != 1)
- out = (ast_expression*)ast_binary_new(ctx, INSTR_MUL_F, out, (ast_expression*)parser_const_float(parser, vec.y));
- }
- else if (!vec.x && !vec.y) { /* v * '0 n 0' */
- ++opts_optimizationcount[OPTIM_VECTOR_COMPONENTS];
- out = (ast_expression*)ast_member_new(ctx, exprs[0], 2, NULL);
- out->expression.node.keep = false;
- ((ast_member*)out)->rvalue = true;
- if (vec.z != 1)
- out = (ast_expression*)ast_binary_new(ctx, INSTR_MUL_F, out, (ast_expression*)parser_const_float(parser, vec.z));
- }
- else
- out = (ast_expression*)ast_binary_new(ctx, INSTR_MUL_V, exprs[0], exprs[1]);
- }
else
out = (ast_expression*)ast_binary_new(ctx, INSTR_MUL_V, exprs[0], exprs[1]);
- }
- break;
- default:
- parseerror(parser, "invalid types used in expression: cannot multiply types %s and %s",
- type_name[exprs[1]->expression.vtype],
- type_name[exprs[0]->expression.vtype]);
- return false;
- };
+ break;
+ default:
+ compile_error(ctx, "invalid types used in expression: cannot multiply types %s and %s",
+ type_name[exprs[1]->vtype],
+ type_name[exprs[0]->vtype]);
+ return false;
+ }
+ }
break;
+
case opid1('/'):
- if (NotSameType(TYPE_FLOAT)) {
- parseerror(parser, "invalid types used in expression: cannot divide types %s and %s",
- type_name[exprs[0]->expression.vtype],
- type_name[exprs[1]->expression.vtype]);
+ if (exprs[1]->vtype != TYPE_FLOAT) {
+ ast_type_to_string(exprs[0], ty1, sizeof(ty1));
+ ast_type_to_string(exprs[1], ty2, sizeof(ty2));
+ compile_error(ctx, "invalid types used in expression: cannot divide types %s and %s", ty1, ty2);
return false;
}
- if (CanConstFold(exprs[0], exprs[1]))
- out = (ast_expression*)parser_const_float(parser, ConstF(0) / ConstF(1));
- else
- out = (ast_expression*)ast_binary_new(ctx, INSTR_DIV_F, exprs[0], exprs[1]);
+ if (!(out = fold_op(parser->fold, op, exprs))) {
+ if (exprs[0]->vtype == TYPE_FLOAT)
+ out = (ast_expression*)ast_binary_new(ctx, INSTR_DIV_F, exprs[0], exprs[1]);
+ else {
+ ast_type_to_string(exprs[0], ty1, sizeof(ty1));
+ ast_type_to_string(exprs[1], ty2, sizeof(ty2));
+ compile_error(ctx, "invalid types used in expression: cannot divide types %s and %s", ty1, ty2);
+ return false;
+ }
+ }
break;
+
case opid1('%'):
+ if (NotSameType(TYPE_FLOAT)) {
+ compile_error(ctx, "invalid types used in expression: cannot perform modulo operation between types %s and %s",
+ type_name[exprs[0]->vtype],
+ type_name[exprs[1]->vtype]);
+ return false;
+ } else if (!(out = fold_op(parser->fold, op, exprs))) {
+ /* generate a call to __builtin_mod */
+ ast_expression *mod = intrin_func(parser->intrin, "mod");
+ ast_call *call = NULL;
+ if (!mod) return false; /* can return null for missing floor */
+
+ call = ast_call_new(parser_ctx(parser), mod);
+ vec_push(call->params, exprs[0]);
+ vec_push(call->params, exprs[1]);
+
+ out = (ast_expression*)call;
+ }
+ break;
+
case opid2('%','='):
- parseerror(parser, "qc does not have a modulo operator");
+ compile_error(ctx, "%= is unimplemented");
return false;
+
case opid1('|'):
case opid1('&'):
- if (NotSameType(TYPE_FLOAT)) {
- parseerror(parser, "invalid types used in expression: cannot perform bit operations between types %s and %s",
- type_name[exprs[0]->expression.vtype],
- type_name[exprs[1]->expression.vtype]);
+ case opid1('^'):
+ if ( !(exprs[0]->vtype == TYPE_FLOAT && exprs[1]->vtype == TYPE_FLOAT) &&
+ !(exprs[0]->vtype == TYPE_VECTOR && exprs[1]->vtype == TYPE_FLOAT) &&
+ !(exprs[0]->vtype == TYPE_VECTOR && exprs[1]->vtype == TYPE_VECTOR))
+ {
+ compile_error(ctx, "invalid types used in expression: cannot perform bit operations between types %s and %s",
+ type_name[exprs[0]->vtype],
+ type_name[exprs[1]->vtype]);
return false;
}
- if (CanConstFold(exprs[0], exprs[1]))
- out = (ast_expression*)parser_const_float(parser,
- (op->id == opid1('|') ? (float)( ((qcint)ConstF(0)) | ((qcint)ConstF(1)) ) :
- (float)( ((qcint)ConstF(0)) & ((qcint)ConstF(1)) ) ));
- else
- out = (ast_expression*)ast_binary_new(ctx,
- (op->id == opid1('|') ? INSTR_BITOR : INSTR_BITAND),
- exprs[0], exprs[1]);
+
+ if (!(out = fold_op(parser->fold, op, exprs))) {
+ /*
+ * IF the first expression is float, the following will be too
+ * since scalar ^ vector is not allowed.
+ */
+ if (exprs[0]->vtype == TYPE_FLOAT) {
+ out = (ast_expression*)ast_binary_new(ctx,
+ (op->id == opid1('^') ? VINSTR_BITXOR : op->id == opid1('|') ? INSTR_BITOR : INSTR_BITAND),
+ exprs[0], exprs[1]);
+ } else {
+ /*
+ * The first is a vector: vector is allowed to bitop with vector and
+ * with scalar, branch here for the second operand.
+ */
+ if (exprs[1]->vtype == TYPE_VECTOR) {
+ /*
+ * Bitop all the values of the vector components against the
+ * vectors components in question.
+ */
+ out = (ast_expression*)ast_binary_new(ctx,
+ (op->id == opid1('^') ? VINSTR_BITXOR_V : op->id == opid1('|') ? VINSTR_BITOR_V : VINSTR_BITAND_V),
+ exprs[0], exprs[1]);
+ } else {
+ out = (ast_expression*)ast_binary_new(ctx,
+ (op->id == opid1('^') ? VINSTR_BITXOR_VF : op->id == opid1('|') ? VINSTR_BITOR_VF : VINSTR_BITAND_VF),
+ exprs[0], exprs[1]);
+ }
+ }
+ }
break;
- case opid1('^'):
- compile_error(ast_ctx(exprs[0]), "Not Yet Implemented: bit-xor via ^");
- return false;
case opid2('<','<'):
case opid2('>','>'):
- if (CanConstFold(exprs[0], exprs[1]) && ! NotSameType(TYPE_FLOAT)) {
- if (op->id == opid2('<','<'))
- out = (ast_expression*)parser_const_float(parser, (double)((int)(ConstF(0)) << (int)(ConstF(1))));
- else
- out = (ast_expression*)parser_const_float(parser, (double)((int)(ConstF(0)) >> (int)(ConstF(1))));
- break;
- }
case opid3('<','<','='):
case opid3('>','>','='):
- compile_error(ast_ctx(exprs[0]), "Not Yet Implemented: bit-shifts");
- return false;
+ if(!(out = fold_op(parser->fold, op, exprs))) {
+ compile_error(ast_ctx(exprs[0]), "Not Yet Implemented: bit-shifts");
+ return false;
+ }
+ break;
case opid2('|','|'):
generated_op += 1; /* INSTR_OR */
case opid2('&','&'):
generated_op += INSTR_AND;
-#if 0
- if (NotSameType(TYPE_FLOAT)) {
- parseerror(parser, "invalid types used in expression: cannot perform logical operations between types %s and %s",
- type_name[exprs[0]->expression.vtype],
- type_name[exprs[1]->expression.vtype]);
- parseerror(parser, "TODO: logical ops for arbitrary types using INSTR_NOT");
- parseerror(parser, "TODO: optional early out");
- return false;
- }
-#endif
- if (CanConstFold(exprs[0], exprs[1]))
- {
- if (OPTS_FLAG(PERL_LOGIC)) {
- if (immediate_is_true(ctx, asvalue[0]))
- out = exprs[1];
- }
- else
- out = (ast_expression*)parser_const_float(parser,
- ( (generated_op == INSTR_OR)
- ? (immediate_is_true(ctx, asvalue[0]) || immediate_is_true(ctx, asvalue[1]))
- : (immediate_is_true(ctx, asvalue[0]) && immediate_is_true(ctx, asvalue[1])) )
- ? 1 : 0);
- }
- else
- {
+ if (!(out = fold_op(parser->fold, op, exprs))) {
if (OPTS_FLAG(PERL_LOGIC) && !ast_compare_type(exprs[0], exprs[1])) {
ast_type_to_string(exprs[0], ty1, sizeof(ty1));
ast_type_to_string(exprs[1], ty2, sizeof(ty2));
- parseerror(parser, "invalid types for logical operation with -fperl-logic: %s and %s", ty1, ty2);
+ compile_error(ctx, "invalid types for logical operation with -fperl-logic: %s and %s", ty1, ty2);
return false;
}
for (i = 0; i < 2; ++i) {
- if (OPTS_FLAG(CORRECT_LOGIC) && exprs[i]->expression.vtype == TYPE_VECTOR) {
+ if (OPTS_FLAG(CORRECT_LOGIC) && exprs[i]->vtype == TYPE_VECTOR) {
out = (ast_expression*)ast_unary_new(ctx, INSTR_NOT_V, exprs[i]);
if (!out) break;
out = (ast_expression*)ast_unary_new(ctx, INSTR_NOT_F, out);
break;
}
}
- else if (OPTS_FLAG(FALSE_EMPTY_STRINGS) && exprs[i]->expression.vtype == TYPE_STRING) {
+ else if (OPTS_FLAG(FALSE_EMPTY_STRINGS) && exprs[i]->vtype == TYPE_STRING) {
out = (ast_expression*)ast_unary_new(ctx, INSTR_NOT_S, exprs[i]);
if (!out) break;
out = (ast_expression*)ast_unary_new(ctx, INSTR_NOT_F, out);
break;
case opid2('?',':'):
- if (vec_last(parser->pot) != POT_TERNARY2) {
- parseerror(parser, "mismatched parenthesis/ternary");
+ if (vec_last(sy->paren) != PAREN_TERNARY2) {
+ compile_error(ctx, "mismatched parenthesis/ternary");
return false;
}
- vec_pop(parser->pot);
+ vec_pop(sy->paren);
if (!ast_compare_type(exprs[1], exprs[2])) {
ast_type_to_string(exprs[1], ty1, sizeof(ty1));
ast_type_to_string(exprs[2], ty2, sizeof(ty2));
- parseerror(parser, "operands of ternary expression must have the same type, got %s and %s", ty1, ty2);
+ compile_error(ctx, "operands of ternary expression must have the same type, got %s and %s", ty1, ty2);
return false;
}
- if (CanConstFold1(exprs[0]))
- out = (immediate_is_true(ctx, asvalue[0]) ? exprs[1] : exprs[2]);
- else
+ if (!(out = fold_op(parser->fold, op, exprs)))
out = (ast_expression*)ast_ternary_new(ctx, exprs[0], exprs[1], exprs[2]);
break;
- case opid1('>'):
- generated_op += 1; /* INSTR_GT */
- case opid1('<'):
- generated_op += 1; /* INSTR_LT */
- case opid2('>', '='):
- generated_op += 1; /* INSTR_GE */
- case opid2('<', '='):
- generated_op += INSTR_LE;
+ case opid2('*', '*'):
if (NotSameType(TYPE_FLOAT)) {
- parseerror(parser, "invalid types used in expression: cannot perform comparison between types %s and %s",
- type_name[exprs[0]->expression.vtype],
- type_name[exprs[1]->expression.vtype]);
+ ast_type_to_string(exprs[0], ty1, sizeof(ty1));
+ ast_type_to_string(exprs[1], ty2, sizeof(ty2));
+ compile_error(ctx, "invalid types used in exponentiation: %s and %s",
+ ty1, ty2);
return false;
}
- out = (ast_expression*)ast_binary_new(ctx, generated_op, exprs[0], exprs[1]);
- break;
- case opid2('!', '='):
- if (exprs[0]->expression.vtype != exprs[1]->expression.vtype) {
- parseerror(parser, "invalid types used in expression: cannot perform comparison between types %s and %s",
- type_name[exprs[0]->expression.vtype],
- type_name[exprs[1]->expression.vtype]);
- return false;
+
+ if (!(out = fold_op(parser->fold, op, exprs))) {
+ ast_call *gencall = ast_call_new(parser_ctx(parser), intrin_func(parser->intrin, "pow"));
+ vec_push(gencall->params, exprs[0]);
+ vec_push(gencall->params, exprs[1]);
+ out = (ast_expression*)gencall;
}
- out = (ast_expression*)ast_binary_new(ctx, type_ne_instr[exprs[0]->expression.vtype], exprs[0], exprs[1]);
break;
- case opid2('=', '='):
- if (exprs[0]->expression.vtype != exprs[1]->expression.vtype) {
- parseerror(parser, "invalid types used in expression: cannot perform comparison between types %s and %s",
- type_name[exprs[0]->expression.vtype],
- type_name[exprs[1]->expression.vtype]);
+
+ case opid2('>', '<'):
+ if (NotSameType(TYPE_VECTOR)) {
+ ast_type_to_string(exprs[0], ty1, sizeof(ty1));
+ ast_type_to_string(exprs[1], ty2, sizeof(ty2));
+ compile_error(ctx, "invalid types used in cross product: %s and %s",
+ ty1, ty2);
return false;
}
- out = (ast_expression*)ast_binary_new(ctx, type_eq_instr[exprs[0]->expression.vtype], exprs[0], exprs[1]);
+
+ if (!(out = fold_op(parser->fold, op, exprs))) {
+ out = (ast_expression*)ast_binary_new(
+ parser_ctx(parser),
+ VINSTR_CROSS,
+ exprs[0],
+ exprs[1]
+ );
+ }
+
break;
- case opid1('='):
- if (ast_istype(exprs[0], ast_entfield)) {
- ast_expression *field = ((ast_entfield*)exprs[0])->field;
+ case opid3('<','=','>'): /* -1, 0, or 1 */
+ if (NotSameType(TYPE_FLOAT)) {
+ ast_type_to_string(exprs[0], ty1, sizeof(ty1));
+ ast_type_to_string(exprs[1], ty2, sizeof(ty2));
+ compile_error(ctx, "invalid types used in comparision: %s and %s",
+ ty1, ty2);
+
+ return false;
+ }
+
+ if (!(out = fold_op(parser->fold, op, exprs))) {
+ ast_binary *eq = ast_binary_new(ctx, INSTR_EQ_F, exprs[0], exprs[1]);
+
+ eq->refs = AST_REF_NONE;
+
+ /* if (lt) { */
+ out = (ast_expression*)ast_ternary_new(ctx,
+ (ast_expression*)ast_binary_new(ctx, INSTR_LT, exprs[0], exprs[1]),
+ /* out = -1 */
+ (ast_expression*)parser->fold->imm_float[2],
+ /* } else { */
+ /* if (eq) { */
+ (ast_expression*)ast_ternary_new(ctx, (ast_expression*)eq,
+ /* out = 0 */
+ (ast_expression*)parser->fold->imm_float[0],
+ /* } else { */
+ /* out = 1 */
+ (ast_expression*)parser->fold->imm_float[1]
+ /* } */
+ )
+ /* } */
+ );
+
+ }
+ break;
+
+ case opid1('>'):
+ generated_op += 1; /* INSTR_GT */
+ case opid1('<'):
+ generated_op += 1; /* INSTR_LT */
+ case opid2('>', '='):
+ generated_op += 1; /* INSTR_GE */
+ case opid2('<', '='):
+ generated_op += INSTR_LE;
+ if (NotSameType(TYPE_FLOAT)) {
+ compile_error(ctx, "invalid types used in expression: cannot perform comparison between types %s and %s",
+ type_name[exprs[0]->vtype],
+ type_name[exprs[1]->vtype]);
+ return false;
+ }
+ if (!(out = fold_op(parser->fold, op, exprs)))
+ out = (ast_expression*)ast_binary_new(ctx, generated_op, exprs[0], exprs[1]);
+ break;
+ case opid2('!', '='):
+ if (exprs[0]->vtype != exprs[1]->vtype) {
+ compile_error(ctx, "invalid types used in expression: cannot perform comparison between types %s and %s",
+ type_name[exprs[0]->vtype],
+ type_name[exprs[1]->vtype]);
+ return false;
+ }
+ if (!(out = fold_op(parser->fold, op, exprs)))
+ out = (ast_expression*)ast_binary_new(ctx, type_ne_instr[exprs[0]->vtype], exprs[0], exprs[1]);
+ break;
+ case opid2('=', '='):
+ if (exprs[0]->vtype != exprs[1]->vtype) {
+ compile_error(ctx, "invalid types used in expression: cannot perform comparison between types %s and %s",
+ type_name[exprs[0]->vtype],
+ type_name[exprs[1]->vtype]);
+ return false;
+ }
+ if (!(out = fold_op(parser->fold, op, exprs)))
+ out = (ast_expression*)ast_binary_new(ctx, type_eq_instr[exprs[0]->vtype], exprs[0], exprs[1]);
+ break;
+
+ case opid1('='):
+ if (ast_istype(exprs[0], ast_entfield)) {
+ ast_expression *field = ((ast_entfield*)exprs[0])->field;
if (OPTS_FLAG(ADJUST_VECTOR_FIELDS) &&
- exprs[0]->expression.vtype == TYPE_FIELD &&
- exprs[0]->expression.next->expression.vtype == TYPE_VECTOR)
+ exprs[0]->vtype == TYPE_FIELD &&
+ exprs[0]->next->vtype == TYPE_VECTOR)
{
assignop = type_storep_instr[TYPE_VECTOR];
}
else
- assignop = type_storep_instr[exprs[0]->expression.vtype];
- if (assignop == AINSTR_END || !ast_compare_type(field->expression.next, exprs[1]))
+ assignop = type_storep_instr[exprs[0]->vtype];
+ if (assignop == VINSTR_END || !ast_compare_type(field->next, exprs[1]))
{
- ast_type_to_string(field->expression.next, ty1, sizeof(ty1));
+ ast_type_to_string(field->next, ty1, sizeof(ty1));
ast_type_to_string(exprs[1], ty2, sizeof(ty2));
if (OPTS_FLAG(ASSIGN_FUNCTION_TYPES) &&
- field->expression.next->expression.vtype == TYPE_FUNCTION &&
- exprs[1]->expression.vtype == TYPE_FUNCTION)
+ field->next->vtype == TYPE_FUNCTION &&
+ exprs[1]->vtype == TYPE_FUNCTION)
{
- (void)!parsewarning(parser, WARN_ASSIGN_FUNCTION_TYPES,
- "invalid types in assignment: cannot assign %s to %s", ty2, ty1);
+ (void)!compile_warning(ctx, WARN_ASSIGN_FUNCTION_TYPES,
+ "invalid types in assignment: cannot assign %s to %s", ty2, ty1);
}
else
- parseerror(parser, "invalid types in assignment: cannot assign %s to %s", ty2, ty1);
+ compile_error(ctx, "invalid types in assignment: cannot assign %s to %s", ty2, ty1);
}
}
else
{
if (OPTS_FLAG(ADJUST_VECTOR_FIELDS) &&
- exprs[0]->expression.vtype == TYPE_FIELD &&
- exprs[0]->expression.next->expression.vtype == TYPE_VECTOR)
+ exprs[0]->vtype == TYPE_FIELD &&
+ exprs[0]->next->vtype == TYPE_VECTOR)
{
assignop = type_store_instr[TYPE_VECTOR];
}
else {
- assignop = type_store_instr[exprs[0]->expression.vtype];
+ assignop = type_store_instr[exprs[0]->vtype];
}
- if (assignop == AINSTR_END) {
+ if (assignop == VINSTR_END) {
ast_type_to_string(exprs[0], ty1, sizeof(ty1));
ast_type_to_string(exprs[1], ty2, sizeof(ty2));
- parseerror(parser, "invalid types in assignment: cannot assign %s to %s", ty2, ty1);
+ compile_error(ctx, "invalid types in assignment: cannot assign %s to %s", ty2, ty1);
}
else if (!ast_compare_type(exprs[0], exprs[1]))
{
ast_type_to_string(exprs[0], ty1, sizeof(ty1));
ast_type_to_string(exprs[1], ty2, sizeof(ty2));
if (OPTS_FLAG(ASSIGN_FUNCTION_TYPES) &&
- exprs[0]->expression.vtype == TYPE_FUNCTION &&
- exprs[1]->expression.vtype == TYPE_FUNCTION)
+ exprs[0]->vtype == TYPE_FUNCTION &&
+ exprs[1]->vtype == TYPE_FUNCTION)
{
- (void)!parsewarning(parser, WARN_ASSIGN_FUNCTION_TYPES,
- "invalid types in assignment: cannot assign %s to %s", ty2, ty1);
+ (void)!compile_warning(ctx, WARN_ASSIGN_FUNCTION_TYPES,
+ "invalid types in assignment: cannot assign %s to %s", ty2, ty1);
}
else
- parseerror(parser, "invalid types in assignment: cannot assign %s to %s", ty2, ty1);
+ compile_error(ctx, "invalid types in assignment: cannot assign %s to %s", ty2, ty1);
}
}
- if (ast_istype(exprs[0], ast_value) && asvalue[0]->cvq == CV_CONST) {
- parseerror(parser, "assignment to constant `%s`", asvalue[0]->name);
- }
+ (void)check_write_to(ctx, exprs[0]);
out = (ast_expression*)ast_store_new(ctx, assignop, exprs[0], exprs[1]);
break;
case opid3('+','+','P'):
case opid3('-','-','P'):
/* prefix ++ */
- if (exprs[0]->expression.vtype != TYPE_FLOAT) {
+ if (exprs[0]->vtype != TYPE_FLOAT) {
ast_type_to_string(exprs[0], ty1, sizeof(ty1));
- parseerror(parser, "invalid type for prefix increment: %s", ty1);
+ compile_error(ast_ctx(exprs[0]), "invalid type for prefix increment: %s", ty1);
return false;
}
if (op->id == opid3('+','+','P'))
addop = INSTR_ADD_F;
else
addop = INSTR_SUB_F;
- if (ast_istype(exprs[0], ast_value) && asvalue[0]->cvq == CV_CONST) {
- parseerror(parser, "assignment to constant `%s`", asvalue[0]->name);
- }
+ (void)check_write_to(ast_ctx(exprs[0]), exprs[0]);
if (ast_istype(exprs[0], ast_entfield)) {
out = (ast_expression*)ast_binstore_new(ctx, INSTR_STOREP_F, addop,
exprs[0],
- (ast_expression*)parser_const_float_1(parser));
+ (ast_expression*)parser->fold->imm_float[1]);
} else {
out = (ast_expression*)ast_binstore_new(ctx, INSTR_STORE_F, addop,
exprs[0],
- (ast_expression*)parser_const_float_1(parser));
+ (ast_expression*)parser->fold->imm_float[1]);
}
break;
case opid3('S','+','+'):
case opid3('S','-','-'):
/* prefix ++ */
- if (exprs[0]->expression.vtype != TYPE_FLOAT) {
+ if (exprs[0]->vtype != TYPE_FLOAT) {
ast_type_to_string(exprs[0], ty1, sizeof(ty1));
- parseerror(parser, "invalid type for suffix increment: %s", ty1);
+ compile_error(ast_ctx(exprs[0]), "invalid type for suffix increment: %s", ty1);
return false;
}
if (op->id == opid3('S','+','+')) {
addop = INSTR_SUB_F;
subop = INSTR_ADD_F;
}
- if (ast_istype(exprs[0], ast_value) && asvalue[0]->cvq == CV_CONST) {
- parseerror(parser, "assignment to constant `%s`", asvalue[0]->name);
- }
+ (void)check_write_to(ast_ctx(exprs[0]), exprs[0]);
if (ast_istype(exprs[0], ast_entfield)) {
out = (ast_expression*)ast_binstore_new(ctx, INSTR_STOREP_F, addop,
exprs[0],
- (ast_expression*)parser_const_float_1(parser));
+ (ast_expression*)parser->fold->imm_float[1]);
} else {
out = (ast_expression*)ast_binstore_new(ctx, INSTR_STORE_F, addop,
exprs[0],
- (ast_expression*)parser_const_float_1(parser));
+ (ast_expression*)parser->fold->imm_float[1]);
}
if (!out)
return false;
out = (ast_expression*)ast_binary_new(ctx, subop,
out,
- (ast_expression*)parser_const_float_1(parser));
+ (ast_expression*)parser->fold->imm_float[1]);
break;
case opid2('+','='):
case opid2('-','='):
- if (exprs[0]->expression.vtype != exprs[1]->expression.vtype ||
- (exprs[0]->expression.vtype != TYPE_VECTOR && exprs[0]->expression.vtype != TYPE_FLOAT) )
+ if (exprs[0]->vtype != exprs[1]->vtype ||
+ (exprs[0]->vtype != TYPE_VECTOR && exprs[0]->vtype != TYPE_FLOAT) )
{
ast_type_to_string(exprs[0], ty1, sizeof(ty1));
ast_type_to_string(exprs[1], ty2, sizeof(ty2));
- parseerror(parser, "invalid types used in expression: cannot add or subtract type %s and %s",
- ty1, ty2);
+ compile_error(ctx, "invalid types used in expression: cannot add or subtract type %s and %s",
+ ty1, ty2);
return false;
}
- if (ast_istype(exprs[0], ast_value) && asvalue[0]->cvq == CV_CONST) {
- parseerror(parser, "assignment to constant `%s`", asvalue[0]->name);
- }
+ (void)check_write_to(ctx, exprs[0]);
if (ast_istype(exprs[0], ast_entfield))
- assignop = type_storep_instr[exprs[0]->expression.vtype];
+ assignop = type_storep_instr[exprs[0]->vtype];
else
- assignop = type_store_instr[exprs[0]->expression.vtype];
- switch (exprs[0]->expression.vtype) {
+ assignop = type_store_instr[exprs[0]->vtype];
+ switch (exprs[0]->vtype) {
case TYPE_FLOAT:
out = (ast_expression*)ast_binstore_new(ctx, assignop,
(op->id == opid2('+','=') ? INSTR_ADD_F : INSTR_SUB_F),
exprs[0], exprs[1]);
break;
default:
- parseerror(parser, "invalid types used in expression: cannot add or subtract type %s and %s",
- type_name[exprs[0]->expression.vtype],
- type_name[exprs[1]->expression.vtype]);
+ compile_error(ctx, "invalid types used in expression: cannot add or subtract type %s and %s",
+ type_name[exprs[0]->vtype],
+ type_name[exprs[1]->vtype]);
return false;
};
break;
case opid2('*','='):
case opid2('/','='):
- if (exprs[1]->expression.vtype != TYPE_FLOAT ||
- !(exprs[0]->expression.vtype == TYPE_FLOAT ||
- exprs[0]->expression.vtype == TYPE_VECTOR))
+ if (exprs[1]->vtype != TYPE_FLOAT ||
+ !(exprs[0]->vtype == TYPE_FLOAT ||
+ exprs[0]->vtype == TYPE_VECTOR))
{
ast_type_to_string(exprs[0], ty1, sizeof(ty1));
ast_type_to_string(exprs[1], ty2, sizeof(ty2));
- parseerror(parser, "invalid types used in expression: %s and %s",
- ty1, ty2);
+ compile_error(ctx, "invalid types used in expression: %s and %s",
+ ty1, ty2);
return false;
}
- if (ast_istype(exprs[0], ast_value) && asvalue[0]->cvq == CV_CONST) {
- parseerror(parser, "assignment to constant `%s`", asvalue[0]->name);
- }
+ (void)check_write_to(ctx, exprs[0]);
if (ast_istype(exprs[0], ast_entfield))
- assignop = type_storep_instr[exprs[0]->expression.vtype];
+ assignop = type_storep_instr[exprs[0]->vtype];
else
- assignop = type_store_instr[exprs[0]->expression.vtype];
- switch (exprs[0]->expression.vtype) {
+ assignop = type_store_instr[exprs[0]->vtype];
+ switch (exprs[0]->vtype) {
case TYPE_FLOAT:
out = (ast_expression*)ast_binstore_new(ctx, assignop,
(op->id == opid2('*','=') ? INSTR_MUL_F : INSTR_DIV_F),
out = (ast_expression*)ast_binstore_new(ctx, assignop, INSTR_MUL_VF,
exprs[0], exprs[1]);
} else {
- /* there's no DIV_VF */
out = (ast_expression*)ast_binary_new(ctx, INSTR_DIV_F,
- (ast_expression*)parser_const_float_1(parser),
- exprs[1]);
- if (!out)
+ (ast_expression*)parser->fold->imm_float[1],
+ exprs[1]);
+ if (!out) {
+ compile_error(ctx, "internal error: failed to generate division");
return false;
+ }
out = (ast_expression*)ast_binstore_new(ctx, assignop, INSTR_MUL_VF,
exprs[0], out);
}
break;
default:
- parseerror(parser, "invalid types used in expression: cannot add or subtract type %s and %s",
- type_name[exprs[0]->expression.vtype],
- type_name[exprs[1]->expression.vtype]);
+ compile_error(ctx, "invalid types used in expression: cannot add or subtract type %s and %s",
+ type_name[exprs[0]->vtype],
+ type_name[exprs[1]->vtype]);
return false;
};
break;
case opid2('&','='):
case opid2('|','='):
- if (NotSameType(TYPE_FLOAT)) {
+ case opid2('^','='):
+ if (NotSameType(TYPE_FLOAT) && NotSameType(TYPE_VECTOR)) {
ast_type_to_string(exprs[0], ty1, sizeof(ty1));
ast_type_to_string(exprs[1], ty2, sizeof(ty2));
- parseerror(parser, "invalid types used in expression: %s and %s",
- ty1, ty2);
+ compile_error(ctx, "invalid types used in expression: %s and %s",
+ ty1, ty2);
return false;
}
- if (ast_istype(exprs[0], ast_value) && asvalue[0]->cvq == CV_CONST) {
- parseerror(parser, "assignment to constant `%s`", asvalue[0]->name);
- }
+ (void)check_write_to(ctx, exprs[0]);
if (ast_istype(exprs[0], ast_entfield))
- assignop = type_storep_instr[exprs[0]->expression.vtype];
+ assignop = type_storep_instr[exprs[0]->vtype];
+ else
+ assignop = type_store_instr[exprs[0]->vtype];
+ if (exprs[0]->vtype == TYPE_FLOAT)
+ out = (ast_expression*)ast_binstore_new(ctx, assignop,
+ (op->id == opid2('^','=') ? VINSTR_BITXOR : op->id == opid2('&','=') ? INSTR_BITAND : INSTR_BITOR),
+ exprs[0], exprs[1]);
else
- assignop = type_store_instr[exprs[0]->expression.vtype];
- out = (ast_expression*)ast_binstore_new(ctx, assignop,
- (op->id == opid2('&','=') ? INSTR_BITAND : INSTR_BITOR),
- exprs[0], exprs[1]);
+ out = (ast_expression*)ast_binstore_new(ctx, assignop,
+ (op->id == opid2('^','=') ? VINSTR_BITXOR_V : op->id == opid2('&','=') ? VINSTR_BITAND_V : VINSTR_BITOR_V),
+ exprs[0], exprs[1]);
break;
case opid3('&','~','='):
/* This is like: a &= ~(b);
* But QC has no bitwise-not, so we implement it as
* a -= a & (b);
*/
- if (NotSameType(TYPE_FLOAT)) {
+ if (NotSameType(TYPE_FLOAT) && NotSameType(TYPE_VECTOR)) {
ast_type_to_string(exprs[0], ty1, sizeof(ty1));
ast_type_to_string(exprs[1], ty2, sizeof(ty2));
- parseerror(parser, "invalid types used in expression: %s and %s",
- ty1, ty2);
+ compile_error(ctx, "invalid types used in expression: %s and %s",
+ ty1, ty2);
return false;
}
if (ast_istype(exprs[0], ast_entfield))
- assignop = type_storep_instr[exprs[0]->expression.vtype];
+ assignop = type_storep_instr[exprs[0]->vtype];
else
- assignop = type_store_instr[exprs[0]->expression.vtype];
- out = (ast_expression*)ast_binary_new(ctx, INSTR_BITAND, exprs[0], exprs[1]);
+ assignop = type_store_instr[exprs[0]->vtype];
+ if (exprs[0]->vtype == TYPE_FLOAT)
+ out = (ast_expression*)ast_binary_new(ctx, INSTR_BITAND, exprs[0], exprs[1]);
+ else
+ out = (ast_expression*)ast_binary_new(ctx, VINSTR_BITAND_V, exprs[0], exprs[1]);
if (!out)
return false;
- if (ast_istype(exprs[0], ast_value) && asvalue[0]->cvq == CV_CONST) {
- parseerror(parser, "assignment to constant `%s`", asvalue[0]->name);
- }
- asbinstore = ast_binstore_new(ctx, assignop, INSTR_SUB_F, exprs[0], out);
+ (void)check_write_to(ctx, exprs[0]);
+ if (exprs[0]->vtype == TYPE_FLOAT)
+ asbinstore = ast_binstore_new(ctx, assignop, INSTR_SUB_F, exprs[0], out);
+ else
+ asbinstore = ast_binstore_new(ctx, assignop, INSTR_SUB_V, exprs[0], out);
asbinstore->keep_dest = true;
out = (ast_expression*)asbinstore;
break;
+
+ case opid2('~', 'P'):
+ if (exprs[0]->vtype != TYPE_FLOAT && exprs[0]->vtype != TYPE_VECTOR) {
+ ast_type_to_string(exprs[0], ty1, sizeof(ty1));
+ compile_error(ast_ctx(exprs[0]), "invalid type for bit not: %s", ty1);
+ return false;
+ }
+ if (!(out = fold_op(parser->fold, op, exprs))) {
+ if (exprs[0]->vtype == TYPE_FLOAT) {
+ out = (ast_expression*)ast_binary_new(ctx, INSTR_SUB_F, (ast_expression*)parser->fold->imm_float[2], exprs[0]);
+ } else {
+ out = (ast_expression*)ast_binary_new(ctx, INSTR_SUB_V, (ast_expression*)parser->fold->imm_vector[1], exprs[0]);
+ }
+ }
+ break;
}
#undef NotSameType
-
if (!out) {
- parseerror(parser, "failed to apply operand %s", op->op);
+ compile_error(ctx, "failed to apply operator %s", op->op);
return false;
}
- DEBUGSHUNTDO(con_out("applied %s\n", op->op));
vec_push(sy->out, syexp(ctx, out));
return true;
}
{
/* was a function call */
ast_expression *fun;
+ ast_value *funval = NULL;
ast_call *call;
size_t fid;
- size_t paramcount;
+ size_t paramcount, i;
+ bool fold = true;
+ fid = vec_last(sy->ops).off;
vec_shrinkby(sy->ops, 1);
- fid = sy->ops[vec_size(sy->ops)].off;
/* out[fid] is the function
* everything above is parameters...
- * 0 params = nothing
- * 1 params = ast_expression
- * more = ast_block
*/
-
- if (vec_size(sy->out) < 1 || vec_size(sy->out) <= fid) {
- parseerror(parser, "internal error: function call needs function and parameter list...");
+ if (!vec_size(sy->argc)) {
+ parseerror(parser, "internal error: no argument counter available");
return false;
}
- fun = sy->out[fid].out;
+ paramcount = vec_last(sy->argc);
+ vec_pop(sy->argc);
+
+ if (vec_size(sy->out) < fid) {
+ parseerror(parser, "internal error: broken function call%lu < %lu+%lu\n",
+ (unsigned long)vec_size(sy->out),
+ (unsigned long)fid,
+ (unsigned long)paramcount);
+ return false;
+ }
- if (fun == intrinsic_debug_typestring) {
+ /*
+ * TODO handle this at the intrinsic level with an ast_intrinsic
+ * node and codegen.
+ */
+ if ((fun = sy->out[fid].out) == intrin_debug_typestring(parser->intrin)) {
char ty[1024];
if (fid+2 != vec_size(sy->out) ||
vec_last(sy->out).block)
ast_type_to_string(vec_last(sy->out).out, ty, sizeof(ty));
ast_unref(vec_last(sy->out).out);
sy->out[fid] = syexp(ast_ctx(vec_last(sy->out).out),
- (ast_expression*)parser_const_string(parser, ty, false));
+ (ast_expression*)fold_constgen_string(parser->fold, ty, false));
vec_shrinkby(sy->out, 1);
return true;
}
+ /*
+ * Now we need to determine if the function that is being called is
+ * an intrinsic so we can evaluate if the arguments to it are constant
+ * and than fruitfully fold them.
+ */
+#define fold_can_1(X) \
+ (ast_istype(((ast_expression*)(X)), ast_value) && (X)->hasvalue && ((X)->cvq == CV_CONST) && \
+ ((ast_expression*)(X))->vtype != TYPE_FUNCTION)
+
+ if (fid + 1 < vec_size(sy->out))
+ ++paramcount;
+
+ for (i = 0; i < paramcount; ++i) {
+ if (!fold_can_1((ast_value*)sy->out[fid + 1 + i].out)) {
+ fold = false;
+ break;
+ }
+ }
+
+ /*
+ * All is well which ends well, if we make it into here we can ignore the
+ * intrinsic call and just evaluate it i.e constant fold it.
+ */
+ if (fold && ast_istype(fun, ast_value) && ((ast_value*)fun)->intrinsic) {
+ ast_expression **exprs = NULL;
+ ast_expression *foldval = NULL;
+
+ for (i = 0; i < paramcount; i++)
+ vec_push(exprs, sy->out[fid+1 + i].out);
+
+ if (!(foldval = intrin_fold(parser->intrin, (ast_value*)fun, exprs))) {
+ vec_free(exprs);
+ goto fold_leave;
+ }
+
+ /*
+ * Blub: what sorts of unreffing and resizing of
+ * sy->out should I be doing here?
+ */
+ sy->out[fid] = syexp(foldval->node.context, foldval);
+ vec_shrinkby(sy->out, 1);
+ vec_free(exprs);
+
+ return true;
+ }
+
+ fold_leave:
call = ast_call_new(sy->ops[vec_size(sy->ops)].ctx, fun);
- if (!call) {
- parseerror(parser, "internal error: failed to create ast_call node");
+
+ if (!call)
+ return false;
+
+ if (fid+1 + paramcount != vec_size(sy->out)) {
+ parseerror(parser, "internal error: parameter count mismatch: (%lu+1+%lu), %lu",
+ (unsigned long)fid, (unsigned long)paramcount, (unsigned long)vec_size(sy->out));
return false;
}
- if (fid+1 == vec_size(sy->out)) {
- /* no arguments */
- paramcount = 0;
- } else if (fid+2 == vec_size(sy->out)) {
- ast_block *params;
- vec_shrinkby(sy->out, 1);
- params = sy->out[vec_size(sy->out)].block;
- if (!params) {
- /* 1 param */
- paramcount = 1;
- vec_push(call->params, sy->out[vec_size(sy->out)].out);
- } else {
- paramcount = vec_size(params->exprs);
- call->params = params->exprs;
- params->exprs = NULL;
- ast_delete(params);
+ for (i = 0; i < paramcount; ++i)
+ vec_push(call->params, sy->out[fid+1 + i].out);
+ vec_shrinkby(sy->out, paramcount);
+ (void)!ast_call_check_types(call, parser->function->vtype->expression.varparam);
+ if (parser->max_param_count < paramcount)
+ parser->max_param_count = paramcount;
+
+ if (ast_istype(fun, ast_value)) {
+ funval = (ast_value*)fun;
+ if ((fun->flags & AST_FLAG_VARIADIC) &&
+ !(/*funval->cvq == CV_CONST && */ funval->hasvalue && funval->constval.vfunc->builtin))
+ {
+ call->va_count = (ast_expression*)fold_constgen_float(parser->fold, (qcfloat_t)paramcount);
}
- (void)!ast_call_check_types(call);
- } else {
- parseerror(parser, "invalid function call");
- return false;
}
/* overwrite fid, the function, with a call */
sy->out[fid] = syexp(call->expression.node.context, (ast_expression*)call);
- if (fun->expression.vtype != TYPE_FUNCTION) {
- parseerror(parser, "not a function (%s)", type_name[fun->expression.vtype]);
+ if (fun->vtype != TYPE_FUNCTION) {
+ parseerror(parser, "not a function (%s)", type_name[fun->vtype]);
return false;
}
- if (!fun->expression.next) {
+ if (!fun->next) {
parseerror(parser, "could not determine function return type");
return false;
} else {
ast_value *fval = (ast_istype(fun, ast_value) ? ((ast_value*)fun) : NULL);
- if (fun->expression.flags & AST_FLAG_DEPRECATED) {
+ if (fun->flags & AST_FLAG_DEPRECATED) {
if (!fval) {
return !parsewarning(parser, WARN_DEPRECATED,
"call to function (which is marked deprecated)\n",
ast_ctx(fun).line);
}
- if (vec_size(fun->expression.params) != paramcount &&
- !((fun->expression.flags & AST_FLAG_VARIADIC) &&
- vec_size(fun->expression.params) < paramcount))
+ if (vec_size(fun->params) != paramcount &&
+ !((fun->flags & AST_FLAG_VARIADIC) &&
+ vec_size(fun->params) < paramcount))
{
- const char *fewmany = (vec_size(fun->expression.params) > paramcount) ? "few" : "many";
+ const char *fewmany = (vec_size(fun->params) > paramcount) ? "few" : "many";
if (fval)
return !parsewarning(parser, WARN_INVALID_PARAMETER_COUNT,
"too %s parameters for call to %s: expected %i, got %i\n"
" -> `%s` has been declared here: %s:%i",
- fewmany, fval->name, (int)vec_size(fun->expression.params), (int)paramcount,
+ fewmany, fval->name, (int)vec_size(fun->params), (int)paramcount,
fval->name, ast_ctx(fun).file, (int)ast_ctx(fun).line);
else
return !parsewarning(parser, WARN_INVALID_PARAMETER_COUNT,
"too %s parameters for function call: expected %i, got %i\n"
" -> it has been declared here: %s:%i",
- fewmany, (int)vec_size(fun->expression.params), (int)paramcount,
+ fewmany, (int)vec_size(fun->params), (int)paramcount,
ast_ctx(fun).file, (int)ast_ctx(fun).line);
}
}
return true;
}
-static bool parser_close_paren(parser_t *parser, shunt *sy, bool functions_only)
+static bool parser_close_paren(parser_t *parser, shunt *sy)
{
if (!vec_size(sy->ops)) {
parseerror(parser, "unmatched closing paren");
return false;
}
- /* this would for bit a + (x) because there are no operators inside (x)
- if (sy->ops[vec_size(sy->ops)-1].paren == 1) {
- parseerror(parser, "empty parenthesis expression");
- return false;
- }
- */
+
while (vec_size(sy->ops)) {
- if (sy->ops[vec_size(sy->ops)-1].paren == SY_PAREN_FUNC) {
- if (!parser_close_call(parser, sy))
- return false;
- break;
- }
- if (sy->ops[vec_size(sy->ops)-1].paren == SY_PAREN_EXPR) {
- vec_shrinkby(sy->ops, 1);
- return !functions_only;
- }
- if (sy->ops[vec_size(sy->ops)-1].paren == SY_PAREN_INDEX) {
- if (functions_only)
- return false;
- /* pop off the parenthesis */
- vec_shrinkby(sy->ops, 1);
- /* then apply the index operator */
- if (!parser_sy_apply_operator(parser, sy))
- return false;
- return true;
- }
- if (sy->ops[vec_size(sy->ops)-1].paren == SY_PAREN_TERNARY) {
- if (functions_only)
- return false;
- if (vec_last(parser->pot) != POT_TERNARY1) {
- parseerror(parser, "mismatched colon in ternary expression (missing closing paren?)");
- return false;
+ if (vec_last(sy->ops).isparen) {
+ if (vec_last(sy->paren) == PAREN_FUNC) {
+ vec_pop(sy->paren);
+ if (!parser_close_call(parser, sy))
+ return false;
+ break;
}
- vec_last(parser->pot) = POT_TERNARY2;
- /* pop off the parenthesis */
- vec_shrinkby(sy->ops, 1);
- return true;
+ if (vec_last(sy->paren) == PAREN_EXPR) {
+ vec_pop(sy->paren);
+ if (!vec_size(sy->out)) {
+ compile_error(vec_last(sy->ops).ctx, "empty paren expression");
+ vec_shrinkby(sy->ops, 1);
+ return false;
+ }
+ vec_shrinkby(sy->ops, 1);
+ break;
+ }
+ if (vec_last(sy->paren) == PAREN_INDEX) {
+ vec_pop(sy->paren);
+ /* pop off the parenthesis */
+ vec_shrinkby(sy->ops, 1);
+ /* then apply the index operator */
+ if (!parser_sy_apply_operator(parser, sy))
+ return false;
+ break;
+ }
+ if (vec_last(sy->paren) == PAREN_TERNARY1) {
+ vec_last(sy->paren) = PAREN_TERNARY2;
+ /* pop off the parenthesis */
+ vec_shrinkby(sy->ops, 1);
+ break;
+ }
+ compile_error(vec_last(sy->ops).ctx, "invalid parenthesis");
+ return false;
}
if (!parser_sy_apply_operator(parser, sy))
return false;
static void parser_reclassify_token(parser_t *parser)
{
size_t i;
+ if (parser->tok >= TOKEN_START)
+ return;
for (i = 0; i < operator_count; ++i) {
if (!strcmp(parser_tokval(parser), operators[i].op)) {
parser->tok = TOKEN_OPERATOR;
}
}
-static ast_expression* parse_expression_leave(parser_t *parser, bool stopatcomma, bool truthvalue, bool with_labels)
+static ast_expression* parse_vararg_do(parser_t *parser)
{
- ast_expression *expr = NULL;
- shunt sy;
- bool wantop = false;
- /* only warn once about an assignment in a truth value because the current code
- * would trigger twice on: if(a = b && ...), once for the if-truth-value, once for the && part
- */
- bool warn_truthvalue = true;
+ ast_expression *idx, *out;
+ ast_value *typevar;
+ ast_value *funtype = parser->function->vtype;
+ lex_ctx_t ctx = parser_ctx(parser);
- /* count the parens because an if starts with one, so the
- * end of a condition is an unmatched closing paren
- */
- int parens = 0;
- int ternaries = 0;
+ if (!parser->function->varargs) {
+ parseerror(parser, "function has no variable argument list");
+ return NULL;
+ }
- sy.out = NULL;
- sy.ops = NULL;
+ if (!parser_next(parser) || parser->tok != '(') {
+ parseerror(parser, "expected parameter index and type in parenthesis");
+ return NULL;
+ }
+ if (!parser_next(parser)) {
+ parseerror(parser, "error parsing parameter index");
+ return NULL;
+ }
- parser->lex->flags.noops = false;
+ idx = parse_expression_leave(parser, true, false, false);
+ if (!idx)
+ return NULL;
- parser_reclassify_token(parser);
+ if (parser->tok != ',') {
+ if (parser->tok != ')') {
+ ast_unref(idx);
+ parseerror(parser, "expected comma after parameter index");
+ return NULL;
+ }
+ /* vararg piping: ...(start) */
+ out = (ast_expression*)ast_argpipe_new(ctx, idx);
+ return out;
+ }
- while (true)
+ if (!parser_next(parser) || (parser->tok != TOKEN_IDENT && parser->tok != TOKEN_TYPENAME)) {
+ ast_unref(idx);
+ parseerror(parser, "expected typename for vararg");
+ return NULL;
+ }
+
+ typevar = parse_typename(parser, NULL, NULL);
+ if (!typevar) {
+ ast_unref(idx);
+ return NULL;
+ }
+
+ if (parser->tok != ')') {
+ ast_unref(idx);
+ ast_delete(typevar);
+ parseerror(parser, "expected closing paren");
+ return NULL;
+ }
+
+ if (funtype->expression.varparam &&
+ !ast_compare_type((ast_expression*)typevar, (ast_expression*)funtype->expression.varparam))
{
- if (OPTS_FLAG(TRANSLATABLE_STRINGS) &&
- parser->tok == TOKEN_IDENT && !strcmp(parser_tokval(parser), "_"))
- {
- /* a translatable string */
- ast_value *val;
+ char ty1[1024];
+ char ty2[1024];
+ ast_type_to_string((ast_expression*)typevar, ty1, sizeof(ty1));
+ ast_type_to_string((ast_expression*)funtype->expression.varparam, ty2, sizeof(ty2));
+ compile_error(ast_ctx(typevar),
+ "function was declared to take varargs of type `%s`, requested type is: %s",
+ ty2, ty1);
+ }
+
+ out = (ast_expression*)ast_array_index_new(ctx, (ast_expression*)(parser->function->varargs), idx);
+ ast_type_adopt(out, typevar);
+ ast_delete(typevar);
+ return out;
+}
- if (wantop) {
- parseerror(parser, "expected operator or end of statement, got constant");
- goto onerr;
- }
+static ast_expression* parse_vararg(parser_t *parser)
+{
+ bool old_noops = parser->lex->flags.noops;
- parser->lex->flags.noops = true;
- if (!parser_next(parser) || parser->tok != '(') {
- parseerror(parser, "use _(\"string\") to create a translatable string constant");
- goto onerr;
- }
- parser->lex->flags.noops = false;
- if (!parser_next(parser) || parser->tok != TOKEN_STRINGCONST) {
- parseerror(parser, "expected a constant string in translatable-string extension");
- goto onerr;
- }
- val = parser_const_string(parser, parser_tokval(parser), true);
- wantop = true;
- if (!val)
- return NULL;
- vec_push(sy.out, syexp(parser_ctx(parser), (ast_expression*)val));
- DEBUGSHUNTDO(con_out("push string\n"));
+ ast_expression *out;
- if (!parser_next(parser) || parser->tok != ')') {
- parseerror(parser, "expected closing paren after translatable string");
- goto onerr;
- }
- }
- else if (parser->tok == TOKEN_IDENT)
- {
- const char *ctoken = parser_tokval(parser);
- ast_expression *prev = vec_size(sy.out) ? vec_last(sy.out).out : NULL;
- ast_expression *var;
- if (wantop) {
- parseerror(parser, "expected operator or end of statement");
- goto onerr;
- }
- wantop = true;
- /* a_vector.{x,y,z} */
- if (!vec_size(sy.ops) ||
- !vec_last(sy.ops).etype ||
- operators[vec_last(sy.ops).etype-1].id != opid1('.') ||
- (prev >= intrinsic_debug_typestring &&
- prev <= intrinsic_debug_typestring))
- {
- /* When adding more intrinsics, fix the above condition */
- prev = NULL;
- }
- if (prev && prev->expression.vtype == TYPE_VECTOR && ctoken[0] >= 'x' && ctoken[0] <= 'z' && !ctoken[1])
- {
- var = (ast_expression*)parser->const_vec[ctoken[0]-'x'];
- } else {
- var = parser_find_var(parser, parser_tokval(parser));
- if (!var)
- var = parser_find_field(parser, parser_tokval(parser));
- }
- if (!var && with_labels) {
- var = (ast_expression*)parser_find_label(parser, parser_tokval(parser));
- if (!with_labels) {
- ast_label *lbl = ast_label_new(parser_ctx(parser), parser_tokval(parser), true);
- var = (ast_expression*)lbl;
- vec_push(parser->labels, lbl);
- }
- }
- if (!var) {
- /* intrinsics */
- if (!strcmp(parser_tokval(parser), "__builtin_debug_typestring")) {
- var = (ast_expression*)intrinsic_debug_typestring;
- }
- else
- {
- size_t i;
- char *correct = NULL;
+ parser->lex->flags.noops = true;
+ out = parse_vararg_do(parser);
- /*
- * sometimes people use preprocessing predefs without enabling them
- * i've done this thousands of times already myself. Lets check for
- * it in the predef table. And diagnose it better :)
- */
- if (!OPTS_FLAG(FTEPP_PREDEFS)) {
- for (i = 0; i < sizeof(ftepp_predefs)/sizeof(*ftepp_predefs); i++) {
- if (!strcmp(ftepp_predefs[i].name, parser_tokval(parser))) {
- parseerror(parser, "unexpected ident: %s (use -fftepp-predef to enable pre-defined macros)", parser_tokval(parser));
- goto onerr;
- }
- }
- }
+ parser->lex->flags.noops = old_noops;
+ return out;
+}
- /*
- * TODO: determine the best score for the identifier: be it
- * a variable, a field.
- *
- * We should also consider adding correction tables for
- * other things as well.
- */
- if (OPTS_FLAG(ENHANCED_DIAGNOSTICS)) {
- correction_t corr;
- correct_init(&corr);
-
- for (i = 0; i < vec_size(parser->correct_variables); i++) {
- correct = correct_str(&corr, parser->correct_variables[i], parser_tokval(parser));
- if (strcmp(correct, parser_tokval(parser))) {
- break;
- } else if (correct) {
- mem_d(correct);
- correct = NULL;
- }
- }
- correct_free(&corr);
+/* not to be exposed */
+bool ftepp_predef_exists(const char *name);
+static bool parse_sya_operand(parser_t *parser, shunt *sy, bool with_labels)
+{
+ if (OPTS_FLAG(TRANSLATABLE_STRINGS) &&
+ parser->tok == TOKEN_IDENT &&
+ !strcmp(parser_tokval(parser), "_"))
+ {
+ /* a translatable string */
+ ast_value *val;
- if (correct) {
- parseerror(parser, "unexpected ident: %s (did you mean %s?)", parser_tokval(parser), correct);
- mem_d(correct);
- goto onerr;
- }
- }
- parseerror(parser, "unexpected ident: %s", parser_tokval(parser));
- goto onerr;
- }
- }
- else
- {
- if (ast_istype(var, ast_value)) {
- ((ast_value*)var)->uses++;
- }
- else if (ast_istype(var, ast_member)) {
- ast_member *mem = (ast_member*)var;
- if (ast_istype(mem->owner, ast_value))
- ((ast_value*)(mem->owner))->uses++;
- }
- }
- vec_push(sy.out, syexp(parser_ctx(parser), var));
- DEBUGSHUNTDO(con_out("push %s\n", parser_tokval(parser)));
+ parser->lex->flags.noops = true;
+ if (!parser_next(parser) || parser->tok != '(') {
+ parseerror(parser, "use _(\"string\") to create a translatable string constant");
+ return false;
}
- else if (parser->tok == TOKEN_FLOATCONST) {
- ast_value *val;
- if (wantop) {
- parseerror(parser, "expected operator or end of statement, got constant");
- goto onerr;
- }
- wantop = true;
- val = parser_const_float(parser, (parser_token(parser)->constval.f));
- if (!val)
- return NULL;
- vec_push(sy.out, syexp(parser_ctx(parser), (ast_expression*)val));
- DEBUGSHUNTDO(con_out("push %g\n", parser_token(parser)->constval.f));
+ parser->lex->flags.noops = false;
+ if (!parser_next(parser) || parser->tok != TOKEN_STRINGCONST) {
+ parseerror(parser, "expected a constant string in translatable-string extension");
+ return false;
}
- else if (parser->tok == TOKEN_INTCONST || parser->tok == TOKEN_CHARCONST) {
- ast_value *val;
- if (wantop) {
- parseerror(parser, "expected operator or end of statement, got constant");
- goto onerr;
- }
- wantop = true;
- val = parser_const_float(parser, (double)(parser_token(parser)->constval.i));
- if (!val)
- return NULL;
- vec_push(sy.out, syexp(parser_ctx(parser), (ast_expression*)val));
- DEBUGSHUNTDO(con_out("push %i\n", parser_token(parser)->constval.i));
+ val = (ast_value*)fold_constgen_string(parser->fold, parser_tokval(parser), true);
+ if (!val)
+ return false;
+ vec_push(sy->out, syexp(parser_ctx(parser), (ast_expression*)val));
+
+ if (!parser_next(parser) || parser->tok != ')') {
+ parseerror(parser, "expected closing paren after translatable string");
+ return false;
}
- else if (parser->tok == TOKEN_STRINGCONST) {
- ast_value *val;
- if (wantop) {
- parseerror(parser, "expected operator or end of statement, got constant");
- goto onerr;
- }
- wantop = true;
- val = parser_const_string(parser, parser_tokval(parser), false);
- if (!val)
- return NULL;
- vec_push(sy.out, syexp(parser_ctx(parser), (ast_expression*)val));
- DEBUGSHUNTDO(con_out("push string\n"));
+ return true;
+ }
+ else if (parser->tok == TOKEN_DOTS)
+ {
+ ast_expression *va;
+ if (!OPTS_FLAG(VARIADIC_ARGS)) {
+ parseerror(parser, "cannot access varargs (try -fvariadic-args)");
+ return false;
}
- else if (parser->tok == TOKEN_VECTORCONST) {
- ast_value *val;
- if (wantop) {
- parseerror(parser, "expected operator or end of statement, got constant");
- goto onerr;
- }
- wantop = true;
- val = parser_const_vector(parser, parser_token(parser)->constval.v);
- if (!val)
- return NULL;
- vec_push(sy.out, syexp(parser_ctx(parser), (ast_expression*)val));
- DEBUGSHUNTDO(con_out("push '%g %g %g'\n",
- parser_token(parser)->constval.v.x,
- parser_token(parser)->constval.v.y,
- parser_token(parser)->constval.v.z));
+ va = parse_vararg(parser);
+ if (!va)
+ return false;
+ vec_push(sy->out, syexp(parser_ctx(parser), va));
+ return true;
+ }
+ else if (parser->tok == TOKEN_FLOATCONST) {
+ ast_expression *val = fold_constgen_float(parser->fold, (parser_token(parser)->constval.f));
+ if (!val)
+ return false;
+ vec_push(sy->out, syexp(parser_ctx(parser), val));
+ return true;
+ }
+ else if (parser->tok == TOKEN_INTCONST || parser->tok == TOKEN_CHARCONST) {
+ ast_expression *val = fold_constgen_float(parser->fold, (qcfloat_t)(parser_token(parser)->constval.i));
+ if (!val)
+ return false;
+ vec_push(sy->out, syexp(parser_ctx(parser), val));
+ return true;
+ }
+ else if (parser->tok == TOKEN_STRINGCONST) {
+ ast_expression *val = fold_constgen_string(parser->fold, parser_tokval(parser), false);
+ if (!val)
+ return false;
+ vec_push(sy->out, syexp(parser_ctx(parser), val));
+ return true;
+ }
+ else if (parser->tok == TOKEN_VECTORCONST) {
+ ast_expression *val = fold_constgen_vector(parser->fold, parser_token(parser)->constval.v);
+ if (!val)
+ return false;
+ vec_push(sy->out, syexp(parser_ctx(parser), val));
+ return true;
+ }
+ else if (parser->tok == TOKEN_IDENT)
+ {
+ const char *ctoken = parser_tokval(parser);
+ ast_expression *prev = vec_size(sy->out) ? vec_last(sy->out).out : NULL;
+ ast_expression *var;
+ /* a_vector.{x,y,z} */
+ if (!vec_size(sy->ops) ||
+ !vec_last(sy->ops).etype ||
+ operators[vec_last(sy->ops).etype-1].id != opid1('.'))
+ {
+ /* When adding more intrinsics, fix the above condition */
+ prev = NULL;
}
- else if (parser->tok == '(') {
- parseerror(parser, "internal error: '(' should be classified as operator");
- goto onerr;
+ if (prev && prev->vtype == TYPE_VECTOR && ctoken[0] >= 'x' && ctoken[0] <= 'z' && !ctoken[1])
+ {
+ var = (ast_expression*)parser->const_vec[ctoken[0]-'x'];
+ } else {
+ var = parser_find_var(parser, parser_tokval(parser));
+ if (!var)
+ var = parser_find_field(parser, parser_tokval(parser));
}
- else if (parser->tok == '[') {
- parseerror(parser, "internal error: '[' should be classified as operator");
- goto onerr;
+ if (!var && with_labels) {
+ var = (ast_expression*)parser_find_label(parser, parser_tokval(parser));
+ if (!with_labels) {
+ ast_label *lbl = ast_label_new(parser_ctx(parser), parser_tokval(parser), true);
+ var = (ast_expression*)lbl;
+ vec_push(parser->labels, lbl);
+ }
}
- else if (parser->tok == ')') {
- if (wantop) {
- DEBUGSHUNTDO(con_out("do[op] )\n"));
- --parens;
- if (parens < 0)
- break;
- /* we do expect an operator next */
- /* closing an opening paren */
- if (!parser_close_paren(parser, &sy, false))
- goto onerr;
- if (vec_last(parser->pot) != POT_PAREN) {
- parseerror(parser, "mismatched parentheses (closing paren during ternary expression?)");
- goto onerr;
+ if (!var && !strcmp(parser_tokval(parser), "__FUNC__"))
+ var = (ast_expression*)fold_constgen_string(parser->fold, parser->function->name, false);
+ if (!var) {
+ /*
+ * now we try for the real intrinsic hashtable. If the string
+ * begins with __builtin, we simply skip past it, otherwise we
+ * use the identifier as is.
+ */
+ if (!strncmp(parser_tokval(parser), "__builtin_", 10)) {
+ var = intrin_func(parser->intrin, parser_tokval(parser));
+ }
+
+ if (!var) {
+ char *correct = NULL;
+ size_t i;
+
+ /*
+ * sometimes people use preprocessing predefs without enabling them
+ * i've done this thousands of times already myself. Lets check for
+ * it in the predef table. And diagnose it better :)
+ */
+ if (!OPTS_FLAG(FTEPP_PREDEFS) && ftepp_predef_exists(parser_tokval(parser))) {
+ parseerror(parser, "unexpected identifier: %s (use -fftepp-predef to enable pre-defined macros)", parser_tokval(parser));
+ return false;
}
- vec_pop(parser->pot);
- } else {
- DEBUGSHUNTDO(con_out("do[nop] )\n"));
- --parens;
- if (parens < 0)
- break;
- /* allowed for function calls */
- if (!parser_close_paren(parser, &sy, true))
- goto onerr;
- if (vec_last(parser->pot) != POT_PAREN) {
- parseerror(parser, "mismatched parentheses (closing paren during ternary expression?)");
- goto onerr;
+
+ /*
+ * TODO: determine the best score for the identifier: be it
+ * a variable, a field.
+ *
+ * We should also consider adding correction tables for
+ * other things as well.
+ */
+ if (OPTS_OPTION_BOOL(OPTION_CORRECTION) && strlen(parser_tokval(parser)) <= 16) {
+ correction_t corr;
+ correct_init(&corr);
+
+ for (i = 0; i < vec_size(parser->correct_variables); i++) {
+ correct = correct_str(&corr, parser->correct_variables[i], parser_tokval(parser));
+ if (strcmp(correct, parser_tokval(parser))) {
+ break;
+ } else {
+ mem_d(correct);
+ correct = NULL;
+ }
+ }
+ correct_free(&corr);
+
+ if (correct) {
+ parseerror(parser, "unexpected identifier: %s (did you mean %s?)", parser_tokval(parser), correct);
+ mem_d(correct);
+ return false;
+ }
}
- vec_pop(parser->pot);
+ parseerror(parser, "unexpected identifier: %s", parser_tokval(parser));
+ return false;
}
- wantop = true;
}
- else if (parser->tok == ']') {
- if (!wantop)
- parseerror(parser, "operand expected");
- --parens;
- if (parens < 0)
- break;
- if (!parser_close_paren(parser, &sy, false))
- goto onerr;
- if (vec_last(parser->pot) != POT_PAREN) {
- parseerror(parser, "mismatched parentheses (closing paren during ternary expression?)");
- goto onerr;
+ else
+ {
+ if (ast_istype(var, ast_value)) {
+ ((ast_value*)var)->uses++;
+ }
+ else if (ast_istype(var, ast_member)) {
+ ast_member *mem = (ast_member*)var;
+ if (ast_istype(mem->owner, ast_value))
+ ((ast_value*)(mem->owner))->uses++;
}
- vec_pop(parser->pot);
- wantop = true;
}
- else if (parser->tok == TOKEN_TYPENAME) {
- parseerror(parser, "unexpected typename");
+ vec_push(sy->out, syexp(parser_ctx(parser), var));
+ return true;
+ }
+ parseerror(parser, "unexpected token `%s`", parser_tokval(parser));
+ return false;
+}
+
+static ast_expression* parse_expression_leave(parser_t *parser, bool stopatcomma, bool truthvalue, bool with_labels)
+{
+ ast_expression *expr = NULL;
+ shunt sy;
+ size_t i;
+ bool wantop = false;
+ /* only warn once about an assignment in a truth value because the current code
+ * would trigger twice on: if(a = b && ...), once for the if-truth-value, once for the && part
+ */
+ bool warn_parenthesis = true;
+
+ /* count the parens because an if starts with one, so the
+ * end of a condition is an unmatched closing paren
+ */
+ int ternaries = 0;
+
+ memset(&sy, 0, sizeof(sy));
+
+ parser->lex->flags.noops = false;
+
+ parser_reclassify_token(parser);
+
+ while (true)
+ {
+ if (parser->tok == TOKEN_TYPENAME) {
+ parseerror(parser, "unexpected typename `%s`", parser_tokval(parser));
goto onerr;
}
- else if (parser->tok != TOKEN_OPERATOR) {
- if (wantop) {
- parseerror(parser, "expected operator or end of statement");
- goto onerr;
- }
- break;
- }
- else
+
+ if (parser->tok == TOKEN_OPERATOR)
{
/* classify the operator */
const oper_info *op;
}
}
if (o == operator_count) {
- /* no operator found... must be the end of the statement */
- break;
+ compile_error(parser_ctx(parser), "unexpected operator: %s", parser_tokval(parser));
+ goto onerr;
}
/* found an operator */
op = &operators[o];
/* when declaring variables, a comma starts a new variable */
- if (op->id == opid1(',') && !parens && stopatcomma) {
+ if (op->id == opid1(',') && !vec_size(sy.paren) && stopatcomma) {
/* fixup the token */
parser->tok = ',';
break;
}
if (op->id == opid1(',')) {
- if (vec_size(parser->pot) && vec_last(parser->pot) == POT_TERNARY2) {
+ if (vec_size(sy.paren) && vec_last(sy.paren) == PAREN_TERNARY2) {
(void)!parsewarning(parser, WARN_TERNARY_PRECEDENCE, "suggesting parenthesis around ternary expression");
}
}
- if (vec_size(sy.ops) && !vec_last(sy.ops).paren)
+ if (vec_size(sy.ops) && !vec_last(sy.ops).isparen)
olast = &operators[vec_last(sy.ops).etype-1];
+ /* first only apply higher precedences, assoc_left+equal comes after we warn about precedence rules */
+ while (olast && op->prec < olast->prec)
+ {
+ if (!parser_sy_apply_operator(parser, &sy))
+ goto onerr;
+ if (vec_size(sy.ops) && !vec_last(sy.ops).isparen)
+ olast = &operators[vec_last(sy.ops).etype-1];
+ else
+ olast = NULL;
+ }
+
#define IsAssignOp(x) (\
(x) == opid1('=') || \
(x) == opid2('+','=') || \
(x) == opid2('|','=') || \
(x) == opid3('&','~','=') \
)
- if (warn_truthvalue) {
+ if (warn_parenthesis) {
if ( (olast && IsAssignOp(olast->id) && (op->id == opid2('&','&') || op->id == opid2('|','|'))) ||
(olast && IsAssignOp(op->id) && (olast->id == opid2('&','&') || olast->id == opid2('|','|'))) ||
- (truthvalue && !vec_size(parser->pot) && IsAssignOp(op->id))
+ (truthvalue && !vec_size(sy.paren) && IsAssignOp(op->id))
)
{
(void)!parsewarning(parser, WARN_PARENTHESIS, "suggesting parenthesis around assignment used as truth value");
- warn_truthvalue = false;
+ warn_parenthesis = false;
+ }
+
+ if (olast && olast->id != op->id) {
+ if ((op->id == opid1('&') || op->id == opid1('|') || op->id == opid1('^')) &&
+ (olast->id == opid1('&') || olast->id == opid1('|') || olast->id == opid1('^')))
+ {
+ (void)!parsewarning(parser, WARN_PARENTHESIS, "suggesting parenthesis around bitwise operations");
+ warn_parenthesis = false;
+ }
+ else if ((op->id == opid2('&','&') || op->id == opid2('|','|')) &&
+ (olast->id == opid2('&','&') || olast->id == opid2('|','|')))
+ {
+ (void)!parsewarning(parser, WARN_PARENTHESIS, "suggesting parenthesis around logical operations");
+ warn_parenthesis = false;
+ }
}
}
{
if (!parser_sy_apply_operator(parser, &sy))
goto onerr;
- if (vec_size(sy.ops) && !vec_last(sy.ops).paren)
+ if (vec_size(sy.ops) && !vec_last(sy.ops).isparen)
olast = &operators[vec_last(sy.ops).etype-1];
else
olast = NULL;
if (op->id == opid1('(')) {
if (wantop) {
size_t sycount = vec_size(sy.out);
- DEBUGSHUNTDO(con_out("push [op] (\n"));
- ++parens; vec_push(parser->pot, POT_PAREN);
/* we expected an operator, this is the function-call operator */
- vec_push(sy.ops, syparen(parser_ctx(parser), SY_PAREN_FUNC, sycount-1));
+ vec_push(sy.paren, PAREN_FUNC);
+ vec_push(sy.ops, syparen(parser_ctx(parser), sycount-1));
+ vec_push(sy.argc, 0);
} else {
- ++parens; vec_push(parser->pot, POT_PAREN);
- vec_push(sy.ops, syparen(parser_ctx(parser), SY_PAREN_EXPR, 0));
- DEBUGSHUNTDO(con_out("push [nop] (\n"));
+ vec_push(sy.paren, PAREN_EXPR);
+ vec_push(sy.ops, syparen(parser_ctx(parser), 0));
}
wantop = false;
} else if (op->id == opid1('[')) {
parseerror(parser, "unexpected array subscript");
goto onerr;
}
- ++parens; vec_push(parser->pot, POT_PAREN);
+ vec_push(sy.paren, PAREN_INDEX);
/* push both the operator and the paren, this makes life easier */
vec_push(sy.ops, syop(parser_ctx(parser), op));
- vec_push(sy.ops, syparen(parser_ctx(parser), SY_PAREN_INDEX, 0));
+ vec_push(sy.ops, syparen(parser_ctx(parser), 0));
wantop = false;
} else if (op->id == opid2('?',':')) {
vec_push(sy.ops, syop(parser_ctx(parser), op));
- vec_push(sy.ops, syparen(parser_ctx(parser), SY_PAREN_TERNARY, 0));
+ vec_push(sy.ops, syparen(parser_ctx(parser), 0));
wantop = false;
++ternaries;
- vec_push(parser->pot, POT_TERNARY1);
+ vec_push(sy.paren, PAREN_TERNARY1);
} else if (op->id == opid2(':','?')) {
- if (!vec_size(parser->pot)) {
+ if (!vec_size(sy.paren)) {
parseerror(parser, "unexpected colon outside ternary expression (missing parenthesis?)");
goto onerr;
}
- if (vec_last(parser->pot) != POT_TERNARY1) {
+ if (vec_last(sy.paren) != PAREN_TERNARY1) {
parseerror(parser, "unexpected colon outside ternary expression (missing parenthesis?)");
goto onerr;
}
- if (!parser_close_paren(parser, &sy, false))
+ if (!parser_close_paren(parser, &sy))
goto onerr;
vec_push(sy.ops, syop(parser_ctx(parser), op));
wantop = false;
--ternaries;
} else {
- DEBUGSHUNTDO(con_out("push operator %s\n", op->op));
vec_push(sy.ops, syop(parser_ctx(parser), op));
wantop = !!(op->flags & OP_SUFFIX);
}
}
+ else if (parser->tok == ')') {
+ while (vec_size(sy.paren) && vec_last(sy.paren) == PAREN_TERNARY2) {
+ if (!parser_sy_apply_operator(parser, &sy))
+ goto onerr;
+ }
+ if (!vec_size(sy.paren))
+ break;
+ if (wantop) {
+ if (vec_last(sy.paren) == PAREN_TERNARY1) {
+ parseerror(parser, "mismatched parentheses (closing paren in ternary expression?)");
+ goto onerr;
+ }
+ if (!parser_close_paren(parser, &sy))
+ goto onerr;
+ } else {
+ /* must be a function call without parameters */
+ if (vec_last(sy.paren) != PAREN_FUNC) {
+ parseerror(parser, "closing paren in invalid position");
+ goto onerr;
+ }
+ if (!parser_close_paren(parser, &sy))
+ goto onerr;
+ }
+ wantop = true;
+ }
+ else if (parser->tok == '(') {
+ parseerror(parser, "internal error: '(' should be classified as operator");
+ goto onerr;
+ }
+ else if (parser->tok == '[') {
+ parseerror(parser, "internal error: '[' should be classified as operator");
+ goto onerr;
+ }
+ else if (parser->tok == ']') {
+ while (vec_size(sy.paren) && vec_last(sy.paren) == PAREN_TERNARY2) {
+ if (!parser_sy_apply_operator(parser, &sy))
+ goto onerr;
+ }
+ if (!vec_size(sy.paren))
+ break;
+ if (vec_last(sy.paren) != PAREN_INDEX) {
+ parseerror(parser, "mismatched parentheses, unexpected ']'");
+ goto onerr;
+ }
+ if (!parser_close_paren(parser, &sy))
+ goto onerr;
+ wantop = true;
+ }
+ else if (!wantop) {
+ if (!parse_sya_operand(parser, &sy, with_labels))
+ goto onerr;
+#if 0
+ if (vec_size(sy.paren) && vec_last(sy.ops).isparen && vec_last(sy.paren) == PAREN_FUNC)
+ vec_last(sy.argc)++;
+#endif
+ wantop = true;
+ }
+ else {
+ /* in this case we might want to allow constant string concatenation */
+ bool concatenated = false;
+ if (parser->tok == TOKEN_STRINGCONST && vec_size(sy.out)) {
+ ast_expression *lexpr = vec_last(sy.out).out;
+ if (ast_istype(lexpr, ast_value)) {
+ ast_value *last = (ast_value*)lexpr;
+ if (last->isimm == true && last->cvq == CV_CONST &&
+ last->hasvalue && last->expression.vtype == TYPE_STRING)
+ {
+ char *newstr = NULL;
+ util_asprintf(&newstr, "%s%s", last->constval.vstring, parser_tokval(parser));
+ vec_last(sy.out).out = (ast_expression*)fold_constgen_string(parser->fold, newstr, false);
+ mem_d(newstr);
+ concatenated = true;
+ }
+ }
+ }
+ if (!concatenated) {
+ parseerror(parser, "expected operator or end of statement");
+ goto onerr;
+ }
+ }
+
if (!parser_next(parser)) {
goto onerr;
}
if (parser->tok == ';' ||
- (!parens && (parser->tok == ']' || parser->tok == ')' || parser->tok == '}')))
+ ((!vec_size(sy.paren) || (vec_size(sy.paren) == 1 && vec_last(sy.paren) == PAREN_TERNARY2)) &&
+ (parser->tok == ']' || parser->tok == ')' || parser->tok == '}')))
{
break;
}
}
parser->lex->flags.noops = true;
- if (!vec_size(sy.out)) {
- parseerror(parser, "empty expression");
+ if (vec_size(sy.out) != 1) {
+ parseerror(parser, "expression expected");
expr = NULL;
} else
expr = sy.out[0].out;
vec_free(sy.out);
vec_free(sy.ops);
- DEBUGSHUNTDO(con_out("shunt done\n"));
- if (vec_size(parser->pot)) {
- parseerror(parser, "internal error: vec_size(parser->pot) = %lu", (unsigned long)vec_size(parser->pot));
+ if (vec_size(sy.paren)) {
+ parseerror(parser, "internal error: vec_size(sy.paren) = %lu", (unsigned long)vec_size(sy.paren));
return NULL;
}
- vec_free(parser->pot);
+ vec_free(sy.paren);
+ vec_free(sy.argc);
return expr;
onerr:
parser->lex->flags.noops = true;
+ for (i = 0; i < vec_size(sy.out); ++i) {
+ if (sy.out[i].out)
+ ast_unref(sy.out[i].out);
+ }
vec_free(sy.out);
vec_free(sy.ops);
+ vec_free(sy.paren);
+ vec_free(sy.argc);
return NULL;
}
ast_unary *unary;
ast_expression *prev;
- if (OPTS_FLAG(FALSE_EMPTY_STRINGS) && cond->expression.vtype == TYPE_STRING)
+ if (cond->vtype == TYPE_VOID || cond->vtype >= TYPE_VARIANT) {
+ char ty[1024];
+ ast_type_to_string(cond, ty, sizeof(ty));
+ compile_error(ast_ctx(cond), "invalid type for if() condition: %s", ty);
+ }
+
+ if (OPTS_FLAG(FALSE_EMPTY_STRINGS) && cond->vtype == TYPE_STRING)
{
prev = cond;
cond = (ast_expression*)ast_unary_new(ast_ctx(cond), INSTR_NOT_S, cond);
}
ifnot = !ifnot;
}
- else if (OPTS_FLAG(CORRECT_LOGIC) && cond->expression.vtype == TYPE_VECTOR)
+ else if (OPTS_FLAG(CORRECT_LOGIC) && cond->vtype == TYPE_VECTOR)
{
/* vector types need to be cast to true booleans */
ast_binary *bin = (ast_binary*)cond;
}
unary = (ast_unary*)cond;
- while (ast_istype(cond, ast_unary) && unary->op == INSTR_NOT_F)
+ /* ast_istype dereferences cond, should test here for safety */
+ while (cond && ast_istype(cond, ast_unary) && unary->op == INSTR_NOT_F)
{
cond = unary->operand;
unary->operand = NULL;
ast_expression *cond, *ontrue = NULL, *onfalse = NULL;
bool ifnot = false;
- lex_ctx ctx = parser_ctx(parser);
+ lex_ctx_t ctx = parser_ctx(parser);
(void)block; /* not touching */
/* closing paren */
if (parser->tok != ')') {
parseerror(parser, "expected closing paren after 'if' condition");
- ast_delete(cond);
+ ast_unref(cond);
return false;
}
/* parse into the 'then' branch */
if (!parser_next(parser)) {
parseerror(parser, "expected statement for on-true branch of 'if'");
- ast_delete(cond);
+ ast_unref(cond);
return false;
}
if (!parse_statement_or_block(parser, &ontrue)) {
- ast_delete(cond);
+ ast_unref(cond);
return false;
}
if (!ontrue)
if (!parser_next(parser)) {
parseerror(parser, "expected on-false branch after 'else'");
ast_delete(ontrue);
- ast_delete(cond);
+ ast_unref(cond);
return false;
}
if (!parse_statement_or_block(parser, &onfalse)) {
ast_delete(ontrue);
- ast_delete(cond);
+ ast_unref(cond);
return false;
}
}
bool ifnot = false;
- lex_ctx ctx = parser_ctx(parser);
+ lex_ctx_t ctx = parser_ctx(parser);
(void)block; /* not touching */
/* closing paren */
if (parser->tok != ')') {
parseerror(parser, "expected closing paren after 'while' condition");
- ast_delete(cond);
+ ast_unref(cond);
return false;
}
/* parse into the 'then' branch */
if (!parser_next(parser)) {
parseerror(parser, "expected while-loop body");
- ast_delete(cond);
+ ast_unref(cond);
return false;
}
if (!parse_statement_or_block(parser, &ontrue)) {
- ast_delete(cond);
+ ast_unref(cond);
return false;
}
cond = process_condition(parser, cond, &ifnot);
if (!cond) {
- ast_delete(ontrue);
+ ast_unref(ontrue);
return false;
}
aloop = ast_loop_new(ctx, NULL, cond, ifnot, NULL, false, NULL, ontrue);
if (vec_last(parser->breaks) != label || vec_last(parser->continues) != label) {
parseerror(parser, "internal error: label stack corrupted");
rv = false;
- ast_delete(*out);
+ /*
+ * Test for NULL otherwise ast_delete dereferences null pointer
+ * and boom.
+ */
+ if (*out)
+ ast_delete(*out);
*out = NULL;
}
else {
bool ifnot = false;
- lex_ctx ctx = parser_ctx(parser);
+ lex_ctx_t ctx = parser_ctx(parser);
(void)block; /* not touching */
if (parser->tok != ')') {
parseerror(parser, "expected closing paren after 'while' condition");
ast_delete(ontrue);
- ast_delete(cond);
+ ast_unref(cond);
return false;
}
/* parse on */
if (!parser_next(parser) || parser->tok != ';') {
parseerror(parser, "expected semicolon after condition");
ast_delete(ontrue);
- ast_delete(cond);
+ ast_unref(cond);
return false;
}
if (!parser_next(parser)) {
parseerror(parser, "parse error");
ast_delete(ontrue);
- ast_delete(cond);
+ ast_unref(cond);
return false;
}
ast_expression *initexpr, *cond, *increment, *ontrue;
ast_value *typevar;
- bool retval = true;
bool ifnot = false;
- lex_ctx ctx = parser_ctx(parser);
+ lex_ctx_t ctx = parser_ctx(parser);
parser_enterblock(parser);
if (typevar || parser->tok == TOKEN_TYPENAME) {
#if 0
- if (opts.standard != COMPILER_GMQCC) {
+ if (OPTS_OPTION_U32(OPTION_STANDARD) != COMPILER_GMQCC) {
if (parsewarning(parser, WARN_EXTENSIONS,
"current standard does not allow variable declarations in for-loop initializers"))
goto onerr;
/* parse the incrementor */
if (parser->tok != ')') {
+ lex_ctx_t condctx = parser_ctx(parser);
increment = parse_expression_leave(parser, false, false, false);
if (!increment)
goto onerr;
if (!ast_side_effects(increment)) {
- if (genwarning(ast_ctx(increment), WARN_EFFECTLESS_STATEMENT, "statement has no effect"))
+ if (compile_warning(condctx, WARN_EFFECTLESS_STATEMENT, "statement has no effect"))
goto onerr;
}
}
aloop = ast_loop_new(ctx, initexpr, cond, ifnot, NULL, false, increment, ontrue);
*out = (ast_expression*)aloop;
- if (!parser_leaveblock(parser))
- retval = false;
- return retval;
+ if (!parser_leaveblock(parser)) {
+ ast_delete(aloop);
+ return false;
+ }
+ return true;
onerr:
- if (initexpr) ast_delete(initexpr);
- if (cond) ast_delete(cond);
- if (increment) ast_delete(increment);
+ if (initexpr) ast_unref(initexpr);
+ if (cond) ast_unref(cond);
+ if (increment) ast_unref(increment);
(void)!parser_leaveblock(parser);
return false;
}
static bool parse_return(parser_t *parser, ast_block *block, ast_expression **out)
{
- ast_expression *exp = NULL;
- ast_return *ret = NULL;
+ ast_expression *exp = NULL;
+ ast_expression *var = NULL;
+ ast_return *ret = NULL;
+ ast_value *retval = parser->function->return_value;
ast_value *expected = parser->function->vtype;
- lex_ctx ctx = parser_ctx(parser);
+ lex_ctx_t ctx = parser_ctx(parser);
(void)block; /* not touching */
return false;
}
+ /* return assignments */
+ if (parser->tok == '=') {
+ if (!OPTS_FLAG(RETURN_ASSIGNMENTS)) {
+ parseerror(parser, "return assignments not activated, try using -freturn-assigments");
+ return false;
+ }
+
+ if (type_store_instr[expected->expression.next->vtype] == VINSTR_END) {
+ char ty1[1024];
+ ast_type_to_string(expected->expression.next, ty1, sizeof(ty1));
+ parseerror(parser, "invalid return type: `%s'", ty1);
+ return false;
+ }
+
+ if (!parser_next(parser)) {
+ parseerror(parser, "expected return assignment expression");
+ return false;
+ }
+
+ if (!(exp = parse_expression_leave(parser, false, false, false)))
+ return false;
+
+ /* prepare the return value */
+ if (!retval) {
+ retval = ast_value_new(ctx, "#LOCAL_RETURN", TYPE_VOID);
+ ast_type_adopt(retval, expected->expression.next);
+ parser->function->return_value = retval;
+ }
+
+ if (!ast_compare_type(exp, (ast_expression*)retval)) {
+ char ty1[1024], ty2[1024];
+ ast_type_to_string(exp, ty1, sizeof(ty1));
+ ast_type_to_string(&retval->expression, ty2, sizeof(ty2));
+ parseerror(parser, "invalid type for return value: `%s', expected `%s'", ty1, ty2);
+ }
+
+ /* store to 'return' local variable */
+ var = (ast_expression*)ast_store_new(
+ ctx,
+ type_store_instr[expected->expression.next->vtype],
+ (ast_expression*)retval, exp);
+
+ if (!var) {
+ ast_unref(exp);
+ return false;
+ }
+
+ if (parser->tok != ';')
+ parseerror(parser, "missing semicolon after return assignment");
+ else if (!parser_next(parser))
+ parseerror(parser, "parse error after return assignment");
+
+ *out = var;
+ return true;
+ }
+
if (parser->tok != ';') {
exp = parse_expression(parser, false, false);
if (!exp)
return false;
- if (exp->expression.vtype != TYPE_NIL &&
- exp->expression.vtype != expected->expression.next->expression.vtype)
+ if (exp->vtype != TYPE_NIL &&
+ exp->vtype != ((ast_expression*)expected)->next->vtype)
{
parseerror(parser, "return with invalid expression");
}
ret = ast_return_new(ctx, exp);
if (!ret) {
- ast_delete(exp);
+ ast_unref(exp);
return false;
}
} else {
if (!parser_next(parser))
parseerror(parser, "parse error");
- if (expected->expression.next->expression.vtype != TYPE_VOID) {
+
+ if (!retval && expected->expression.next->vtype != TYPE_VOID)
+ {
(void)!parsewarning(parser, WARN_MISSING_RETURN_VALUES, "return without value");
}
- ret = ast_return_new(ctx, NULL);
+ ret = ast_return_new(ctx, (ast_expression*)retval);
}
*out = (ast_expression*)ret;
return true;
{
size_t i;
unsigned int levels = 0;
- lex_ctx ctx = parser_ctx(parser);
+ lex_ctx_t ctx = parser_ctx(parser);
const char **loops = (is_continue ? parser->continues : parser->breaks);
(void)block; /* not touching */
else if (!strcmp(parser_tokval(parser), "inline")) {
flags |= AST_FLAG_INLINE;
if (!parser_next(parser) || parser->tok != TOKEN_ATTRIBUTE_CLOSE) {
- parseerror(parser, "`noref` attribute has no parameters, expected `]]`");
+ parseerror(parser, "`inline` attribute has no parameters, expected `]]`");
+ *cvq = CV_WRONG;
+ return false;
+ }
+ }
+ else if (!strcmp(parser_tokval(parser), "eraseable")) {
+ flags |= AST_FLAG_ERASEABLE;
+ if (!parser_next(parser) || parser->tok != TOKEN_ATTRIBUTE_CLOSE) {
+ parseerror(parser, "`eraseable` attribute has no parameters, expected `]]`");
*cvq = CV_WRONG;
return false;
}
}
+ else if (!strcmp(parser_tokval(parser), "alias") && !(flags & AST_FLAG_ALIAS)) {
+ flags |= AST_FLAG_ALIAS;
+ *message = NULL;
+
+ if (!parser_next(parser)) {
+ parseerror(parser, "parse error in attribute");
+ goto argerr;
+ }
+
+ if (parser->tok == '(') {
+ if (!parser_next(parser) || parser->tok != TOKEN_STRINGCONST) {
+ parseerror(parser, "`alias` attribute missing parameter");
+ goto argerr;
+ }
+
+ *message = util_strdup(parser_tokval(parser));
+
+ if (!parser_next(parser)) {
+ parseerror(parser, "parse error in attribute");
+ goto argerr;
+ }
+
+ if (parser->tok != ')') {
+ parseerror(parser, "`alias` attribute expected `)` after parameter");
+ goto argerr;
+ }
+ if (!parser_next(parser)) {
+ parseerror(parser, "parse error in attribute");
+ goto argerr;
+ }
+ }
+ if (parser->tok != TOKEN_ATTRIBUTE_CLOSE) {
+ parseerror(parser, "`alias` attribute expected `]]`");
+ goto argerr;
+ }
+ }
else if (!strcmp(parser_tokval(parser), "deprecated") && !(flags & AST_FLAG_DEPRECATED)) {
flags |= AST_FLAG_DEPRECATED;
*message = NULL;
bool noref, is_static;
uint32_t qflags = 0;
- lex_ctx ctx = parser_ctx(parser);
+ lex_ctx_t ctx = parser_ctx(parser);
(void)block; /* not touching */
(void)opval;
if (!(expression = parse_expression(parser, false, true)) ||
!(*out = parse_goto_computed(parser, &expression))) {
parseerror(parser, "invalid goto expression");
- ast_unref(expression);
+ if(expression)
+ ast_unref(expression);
return false;
}
else
{
(void)!parsewarning(parser, WARN_UNKNOWN_PRAGMAS, "ignoring #pragma %s", parser_tokval(parser));
- return false;
+
+ /* skip to eol */
+ while (!parse_eol(parser)) {
+ parser_next(parser);
+ }
+
+ return true;
}
return true;
if (parser->tok == TOKEN_IDENT)
typevar = parser_find_typedef(parser, parser_tokval(parser), 0);
- if (typevar || parser->tok == TOKEN_TYPENAME || parser->tok == '.')
+ if (typevar || parser->tok == TOKEN_TYPENAME || parser->tok == '.' || parser->tok == TOKEN_DOTS)
{
/* local variable */
if (!block) {
parseerror(parser, "cannot declare a variable from here");
return false;
}
- if (opts.standard == COMPILER_QCC) {
+ if (OPTS_OPTION_U32(OPTION_STANDARD) == COMPILER_QCC) {
if (parsewarning(parser, WARN_EXTENSIONS, "missing 'local' keyword when declaring a local variable"))
return false;
}
}
else if (!strcmp(parser_tokval(parser), "for"))
{
- if (opts.standard == COMPILER_QCC) {
+ if (OPTS_OPTION_U32(OPTION_STANDARD) == COMPILER_QCC) {
if (parsewarning(parser, WARN_EXTENSIONS, "for loops are not recognized in the original Quake C standard, to enable try an alternate standard --std=?"))
return false;
}
}
return parse_typedef(parser);
}
- parseerror(parser, "Unexpected keyword");
+ parseerror(parser, "Unexpected keyword: `%s'", parser_tokval(parser));
return false;
}
else if (parser->tok == '{')
}
else
{
+ lex_ctx_t ctx = parser_ctx(parser);
ast_expression *exp = parse_expression(parser, false, false);
if (!exp)
return false;
*out = exp;
if (!ast_side_effects(exp)) {
- if (genwarning(ast_ctx(exp), WARN_EFFECTLESS_STATEMENT, "statement has no effect"))
+ if (compile_warning(ctx, WARN_EFFECTLESS_STATEMENT, "statement has no effect"))
return false;
}
return true;
static bool parse_enum(parser_t *parser)
{
- qcfloat num = 0;
+ bool flag = false;
+ bool reverse = false;
+ qcfloat_t num = 0;
ast_value **values = NULL;
ast_value *var = NULL;
ast_value *asvalue;
ast_expression *old;
- if (!parser_next(parser) || parser->tok != '{') {
- parseerror(parser, "expected `{` after `enum` keyword");
+ if (!parser_next(parser) || (parser->tok != '{' && parser->tok != ':')) {
+ parseerror(parser, "expected `{` or `:` after `enum` keyword");
return false;
}
+ /* enumeration attributes (can add more later) */
+ if (parser->tok == ':') {
+ if (!parser_next(parser) || parser->tok != TOKEN_IDENT){
+ parseerror(parser, "expected `flag` or `reverse` for enumeration attribute");
+ return false;
+ }
+
+ /* attributes? */
+ if (!strcmp(parser_tokval(parser), "flag")) {
+ num = 1;
+ flag = true;
+ }
+ else if (!strcmp(parser_tokval(parser), "reverse")) {
+ reverse = true;
+ }
+ else {
+ parseerror(parser, "invalid attribute `%s` for enumeration", parser_tokval(parser));
+ return false;
+ }
+
+ if (!parser_next(parser) || parser->tok != '{') {
+ parseerror(parser, "expected `{` after enum attribute ");
+ return false;
+ }
+ }
+
while (true) {
if (!parser_next(parser) || parser->tok != TOKEN_IDENT) {
if (parser->tok == '}') {
vec_push(values, var);
var->cvq = CV_CONST;
var->hasvalue = true;
- var->constval.vfloat = num++;
+ /* for flagged enumerations increment in POTs of TWO */
+ var->constval.vfloat = (flag) ? (num *= 2) : (num ++);
parser_addglobal(parser, var->name, (ast_expression*)var);
if (!parser_next(parser)) {
}
}
+ /* patch them all (for reversed attribute) */
+ if (reverse) {
+ size_t i;
+ for (i = 0; i < vec_size(values); i++)
+ values[i]->constval.vfloat = vec_size(values) - i - 1;
+ }
+
if (parser->tok != '}') {
parseerror(parser, "internal error: breaking without `}`");
goto onerror;
has_frame_think = false;
old = parser->function;
+ if (var->expression.flags & AST_FLAG_ALIAS) {
+ parseerror(parser, "function aliases cannot have bodies");
+ return false;
+ }
+
if (vec_size(parser->gotos) || vec_size(parser->labels)) {
parseerror(parser, "gotos/labels leaking");
return false;
}
- if (var->expression.flags & AST_FLAG_VARIADIC) {
+ if (!OPTS_FLAG(VARIADIC_ARGS) && var->expression.flags & AST_FLAG_VARIADIC) {
if (parsewarning(parser, WARN_VARIADIC_FUNCTION,
- "variadic function with implementation will not be able to access additional parameters"))
+ "variadic function with implementation will not be able to access additional parameters (try -fvariadic-args)"))
{
return false;
}
/* qc allows the use of not-yet-declared functions here
* - this automatically creates a prototype */
ast_value *thinkfunc;
- ast_expression *functype = fld_think->expression.next;
+ ast_expression *functype = fld_think->next;
- thinkfunc = ast_value_new(parser_ctx(parser), parser_tokval(parser), functype->expression.vtype);
- if (!thinkfunc || !ast_type_adopt(thinkfunc, functype)) {
+ thinkfunc = ast_value_new(parser_ctx(parser), parser_tokval(parser), functype->vtype);
+ if (!thinkfunc) { /* || !ast_type_adopt(thinkfunc, functype)*/
ast_unref(framenum);
parseerror(parser, "failed to create implicit prototype for `%s`", parser_tokval(parser));
return false;
}
+ ast_type_adopt(thinkfunc, functype);
if (!parser_next(parser)) {
ast_unref(framenum);
}
if (has_frame_think) {
- lex_ctx ctx;
+ lex_ctx_t ctx;
ast_expression *self_frame;
ast_expression *self_nextthink;
ast_expression *self_think;
self_think = (ast_expression*)ast_entfield_new(ctx, gbl_self, fld_think);
time_plus_1 = (ast_expression*)ast_binary_new(ctx, INSTR_ADD_F,
- gbl_time, (ast_expression*)parser_const_float(parser, 0.1));
+ gbl_time, (ast_expression*)fold_constgen_float(parser->fold, 0.1f));
if (!self_frame || !self_nextthink || !self_think || !time_plus_1) {
if (self_frame) ast_delete(self_frame);
}
}
+ if (var->hasvalue) {
+ parseerror(parser, "function `%s` declared with multiple bodies", var->name);
+ ast_block_delete(block);
+ goto enderr;
+ }
+
+ func = ast_function_new(ast_ctx(var), var->name, var);
+ if (!func) {
+ parseerror(parser, "failed to allocate function for `%s`", var->name);
+ ast_block_delete(block);
+ goto enderr;
+ }
+ vec_push(parser->functions, func);
+
parser_enterblock(parser);
for (parami = 0; parami < vec_size(var->expression.params); ++parami) {
if (param->expression.vtype != TYPE_VECTOR &&
(param->expression.vtype != TYPE_FIELD ||
- param->expression.next->expression.vtype != TYPE_VECTOR))
+ param->expression.next->vtype != TYPE_VECTOR))
{
continue;
}
if (!create_vector_members(param, me)) {
ast_block_delete(block);
- return false;
+ goto enderrfn;
}
for (e = 0; e < 3; ++e) {
}
}
- func = ast_function_new(ast_ctx(var), var->name, var);
- if (!func) {
- parseerror(parser, "failed to allocate function for `%s`", var->name);
- ast_block_delete(block);
- goto enderr;
+ if (var->argcounter) {
+ ast_value *argc = ast_value_new(ast_ctx(var), var->argcounter, TYPE_FLOAT);
+ parser_addlocal(parser, argc->name, (ast_expression*)argc);
+ func->argc = argc;
+ }
+
+ if (OPTS_FLAG(VARIADIC_ARGS) && var->expression.flags & AST_FLAG_VARIADIC) {
+ char name[1024];
+ ast_value *varargs = ast_value_new(ast_ctx(var), "reserved:va_args", TYPE_ARRAY);
+ varargs->expression.flags |= AST_FLAG_IS_VARARG;
+ varargs->expression.next = (ast_expression*)ast_value_new(ast_ctx(var), NULL, TYPE_VECTOR);
+ varargs->expression.count = 0;
+ util_snprintf(name, sizeof(name), "%s##va##SET", var->name);
+ if (!parser_create_array_setter_proto(parser, varargs, name)) {
+ ast_delete(varargs);
+ ast_block_delete(block);
+ goto enderrfn;
+ }
+ util_snprintf(name, sizeof(name), "%s##va##GET", var->name);
+ if (!parser_create_array_getter_proto(parser, varargs, varargs->expression.next, name)) {
+ ast_delete(varargs);
+ ast_block_delete(block);
+ goto enderrfn;
+ }
+ func->varargs = varargs;
+ func->fixedparams = (ast_value*)fold_constgen_float(parser->fold, vec_size(var->expression.params));
}
- vec_push(parser->functions, func);
parser->function = func;
if (!parse_block_into(parser, block)) {
vec_push(func->blocks, block);
+
parser->function = old;
if (!parser_leaveblock(parser))
retval = false;
if (parser->tok == ';')
return parser_next(parser);
- else if (opts.standard == COMPILER_QCC)
+ else if (OPTS_OPTION_U32(OPTION_STANDARD) == COMPILER_QCC)
parseerror(parser, "missing semicolon after function body (mandatory with -std=qcc)");
return retval;
enderrfn:
+ (void)!parser_leaveblock(parser);
vec_pop(parser->functions);
ast_function_delete(func);
var->constval.vfunc = NULL;
enderr:
- (void)!parser_leaveblock(parser);
parser->function = old;
return false;
}
ast_ifthen *ifthen;
ast_binary *cmp;
- lex_ctx ctx = ast_ctx(array);
+ lex_ctx_t ctx = ast_ctx(array);
if (!left || !right) {
if (left) ast_delete(left);
cmp = ast_binary_new(ctx, INSTR_LT,
(ast_expression*)index,
- (ast_expression*)parser_const_float(parser, middle));
+ (ast_expression*)fold_constgen_float(parser->fold, middle));
if (!cmp) {
ast_delete(left);
ast_delete(right);
static ast_expression *array_setter_node(parser_t *parser, ast_value *array, ast_value *index, ast_value *value, size_t from, size_t afterend)
{
- lex_ctx ctx = ast_ctx(array);
+ lex_ctx_t ctx = ast_ctx(array);
if (from+1 == afterend) {
/* set this value */
ast_store *st;
int assignop = type_store_instr[value->expression.vtype];
- if (value->expression.vtype == TYPE_FIELD && value->expression.next->expression.vtype == TYPE_VECTOR)
+ if (value->expression.vtype == TYPE_FIELD && value->expression.next->vtype == TYPE_VECTOR)
assignop = INSTR_STORE_V;
- subscript = ast_array_index_new(ctx, (ast_expression*)array, (ast_expression*)parser_const_float(parser, from));
+ subscript = ast_array_index_new(ctx, (ast_expression*)array, (ast_expression*)fold_constgen_float(parser->fold, from));
if (!subscript)
return NULL;
size_t from,
size_t afterend)
{
- lex_ctx ctx = ast_ctx(array);
+ lex_ctx_t ctx = ast_ctx(array);
if (from+1 == afterend) {
/* set this value */
ast_store *st;
int assignop = type_storep_instr[value->expression.vtype];
- if (value->expression.vtype == TYPE_FIELD && value->expression.next->expression.vtype == TYPE_VECTOR)
+ if (value->expression.vtype == TYPE_FIELD && value->expression.next->vtype == TYPE_VECTOR)
assignop = INSTR_STOREP_V;
- subscript = ast_array_index_new(ctx, (ast_expression*)array, (ast_expression*)parser_const_float(parser, from));
+ subscript = ast_array_index_new(ctx, (ast_expression*)array, (ast_expression*)fold_constgen_float(parser->fold, from));
if (!subscript)
return NULL;
+ subscript->expression.next = ast_type_copy(ast_ctx(subscript), (ast_expression*)subscript);
+ subscript->expression.vtype = TYPE_FIELD;
+
entfield = ast_entfield_new_force(ctx,
(ast_expression*)entity,
(ast_expression*)subscript,
static ast_expression *array_getter_node(parser_t *parser, ast_value *array, ast_value *index, size_t from, size_t afterend)
{
- lex_ctx ctx = ast_ctx(array);
+ lex_ctx_t ctx = ast_ctx(array);
if (from+1 == afterend) {
ast_return *ret;
ast_array_index *subscript;
- subscript = ast_array_index_new(ctx, (ast_expression*)array, (ast_expression*)parser_const_float(parser, from));
+ subscript = ast_array_index_new(ctx, (ast_expression*)array, (ast_expression*)fold_constgen_float(parser->fold, from));
if (!subscript)
return NULL;
return true;
}
-static bool parser_create_array_setter(parser_t *parser, ast_value *array, const char *funcname)
+static ast_value* parser_create_array_setter_proto(parser_t *parser, ast_value *array, const char *funcname)
{
- ast_expression *root = NULL;
ast_value *index = NULL;
ast_value *value = NULL;
ast_function *func;
if (!ast_istype(array->expression.next, ast_value)) {
parseerror(parser, "internal error: array accessor needs to build an ast_value with a copy of the element type");
- return false;
+ return NULL;
}
if (!parser_create_array_accessor(parser, array, funcname, &fval))
- return false;
+ return NULL;
func = fval->constval.vfunc;
fval->expression.next = (ast_expression*)ast_value_new(ast_ctx(array), "<void>", TYPE_VOID);
vec_push(fval->expression.params, index);
vec_push(fval->expression.params, value);
- root = array_setter_node(parser, array, index, value, 0, array->expression.count);
+ array->setter = fval;
+ return fval;
+cleanup:
+ if (index) ast_delete(index);
+ if (value) ast_delete(value);
+ ast_delete(func);
+ ast_delete(fval);
+ return NULL;
+}
+
+static bool parser_create_array_setter_impl(parser_t *parser, ast_value *array)
+{
+ ast_expression *root = NULL;
+ root = array_setter_node(parser, array,
+ array->setter->expression.params[0],
+ array->setter->expression.params[1],
+ 0, array->expression.count);
if (!root) {
parseerror(parser, "failed to build accessor search tree");
- goto cleanup;
+ return false;
+ }
+ if (!ast_block_add_expr(array->setter->constval.vfunc->blocks[0], root)) {
+ ast_delete(root);
+ return false;
}
+ return true;
+}
- array->setter = fval;
- return ast_block_add_expr(func->blocks[0], root);
-cleanup:
- if (index) ast_delete(index);
- if (value) ast_delete(value);
- if (root) ast_delete(root);
- ast_delete(func);
- ast_delete(fval);
- return false;
+static bool parser_create_array_setter(parser_t *parser, ast_value *array, const char *funcname)
+{
+ if (!parser_create_array_setter_proto(parser, array, funcname))
+ return false;
+ return parser_create_array_setter_impl(parser, array);
}
static bool parser_create_array_field_setter(parser_t *parser, ast_value *array, const char *funcname)
return false;
}
-static bool parser_create_array_getter(parser_t *parser, ast_value *array, const ast_expression *elemtype, const char *funcname)
+static ast_value* parser_create_array_getter_proto(parser_t *parser, ast_value *array, const ast_expression *elemtype, const char *funcname)
{
- ast_expression *root = NULL;
ast_value *index = NULL;
ast_value *fval;
ast_function *func;
*/
if (!ast_istype(array->expression.next, ast_value)) {
parseerror(parser, "internal error: array accessor needs to build an ast_value with a copy of the element type");
- return false;
+ return NULL;
}
if (!parser_create_array_accessor(parser, array, funcname, &fval))
- return false;
+ return NULL;
func = fval->constval.vfunc;
fval->expression.next = ast_type_copy(ast_ctx(array), elemtype);
}
vec_push(fval->expression.params, index);
- root = array_getter_node(parser, array, index, 0, array->expression.count);
- if (!root) {
- parseerror(parser, "failed to build accessor search tree");
- goto cleanup;
- }
-
array->getter = fval;
- return ast_block_add_expr(func->blocks[0], root);
+ return fval;
cleanup:
if (index) ast_delete(index);
- if (root) ast_delete(root);
ast_delete(func);
ast_delete(fval);
- return false;
+ return NULL;
+}
+
+static bool parser_create_array_getter_impl(parser_t *parser, ast_value *array)
+{
+ ast_expression *root = NULL;
+
+ root = array_getter_node(parser, array, array->getter->expression.params[0], 0, array->expression.count);
+ if (!root) {
+ parseerror(parser, "failed to build accessor search tree");
+ return false;
+ }
+ if (!ast_block_add_expr(array->getter->constval.vfunc->blocks[0], root)) {
+ ast_delete(root);
+ return false;
+ }
+ return true;
+}
+
+static bool parser_create_array_getter(parser_t *parser, ast_value *array, const ast_expression *elemtype, const char *funcname)
+{
+ if (!parser_create_array_getter_proto(parser, array, elemtype, funcname))
+ return false;
+ return parser_create_array_getter_impl(parser, array);
}
static ast_value *parse_typename(parser_t *parser, ast_value **storebase, ast_value *cached_typedef);
static ast_value *parse_parameter_list(parser_t *parser, ast_value *var)
{
- lex_ctx ctx;
+ lex_ctx_t ctx;
size_t i;
ast_value **params;
ast_value *param;
ast_value *fval;
bool first = true;
bool variadic = false;
+ ast_value *varparam = NULL;
+ char *argcounter = NULL;
ctx = parser_ctx(parser);
/* for the sake of less code we parse-in in this function */
if (!parser_next(parser)) {
+ ast_delete(var);
parseerror(parser, "expected parameter list");
return NULL;
}
if (parser->tok == TOKEN_DOTS) {
/* '...' indicates a varargs function */
variadic = true;
- if (!parser_next(parser)) {
- parseerror(parser, "expected parameter");
- return NULL;
- }
- if (parser->tok != ')') {
+ if (!parser_next(parser) || (parser->tok != ')' && parser->tok != TOKEN_IDENT)) {
parseerror(parser, "`...` must be the last parameter of a variadic function declaration");
goto on_error;
}
+ if (parser->tok == TOKEN_IDENT) {
+ argcounter = util_strdup(parser_tokval(parser));
+ if (!parser_next(parser) || parser->tok != ')') {
+ parseerror(parser, "`...` must be the last parameter of a variadic function declaration");
+ goto on_error;
+ }
+ }
}
else
{
parseerror(parser, "type not supported as part of a parameter list: %s", tname);
goto on_error;
}
+ /* type-restricted varargs */
+ if (parser->tok == TOKEN_DOTS) {
+ variadic = true;
+ varparam = vec_last(params);
+ vec_pop(params);
+ if (!parser_next(parser) || (parser->tok != ')' && parser->tok != TOKEN_IDENT)) {
+ parseerror(parser, "`...` must be the last parameter of a variadic function declaration");
+ goto on_error;
+ }
+ if (parser->tok == TOKEN_IDENT) {
+ argcounter = util_strdup(parser_tokval(parser));
+ if (!parser_next(parser) || parser->tok != ')') {
+ parseerror(parser, "`...` must be the last parameter of a variadic function declaration");
+ goto on_error;
+ }
+ }
+ }
}
}
vec_free(params);
/* sanity check */
- if (vec_size(params) > 8 && opts.standard == COMPILER_QCC)
+ if (vec_size(params) > 8 && OPTS_OPTION_U32(OPTION_STANDARD) == COMPILER_QCC)
(void)!parsewarning(parser, WARN_EXTENSIONS, "more than 8 parameters are not supported by this standard");
/* parse-out */
fval->expression.flags |= AST_FLAG_VARIADIC;
var = fval;
- var->expression.params = params;
+ var->expression.params = params;
+ var->expression.varparam = (ast_expression*)varparam;
+ var->argcounter = argcounter;
params = NULL;
return var;
on_error:
+ if (argcounter)
+ mem_d(argcounter);
+ if (varparam)
+ ast_delete(varparam);
ast_delete(var);
for (i = 0; i < vec_size(params); ++i)
ast_delete(params[i]);
{
ast_expression *cexp;
ast_value *cval, *tmp;
- lex_ctx ctx;
+ lex_ctx_t ctx;
ctx = parser_ctx(parser);
return NULL;
}
- cexp = parse_expression_leave(parser, true, false, false);
+ if (parser->tok != ']') {
+ cexp = parse_expression_leave(parser, true, false, false);
- if (!cexp || !ast_istype(cexp, ast_value)) {
- if (cexp)
- ast_unref(cexp);
- ast_delete(var);
- parseerror(parser, "expected array-size as constant positive integer");
- return NULL;
+ if (!cexp || !ast_istype(cexp, ast_value)) {
+ if (cexp)
+ ast_unref(cexp);
+ ast_delete(var);
+ parseerror(parser, "expected array-size as constant positive integer");
+ return NULL;
+ }
+ cval = (ast_value*)cexp;
+ }
+ else {
+ cexp = NULL;
+ cval = NULL;
}
- cval = (ast_value*)cexp;
tmp = ast_value_new(ctx, "<type[]>", TYPE_ARRAY);
tmp->expression.next = (ast_expression*)var;
var = tmp;
- if (cval->expression.vtype == TYPE_INTEGER)
- tmp->expression.count = cval->constval.vint;
- else if (cval->expression.vtype == TYPE_FLOAT)
- tmp->expression.count = cval->constval.vfloat;
- else {
+ if (cval) {
+ if (cval->expression.vtype == TYPE_INTEGER)
+ tmp->expression.count = cval->constval.vint;
+ else if (cval->expression.vtype == TYPE_FLOAT)
+ tmp->expression.count = cval->constval.vfloat;
+ else {
+ ast_unref(cexp);
+ ast_delete(var);
+ parseerror(parser, "array-size must be a positive integer constant");
+ return NULL;
+ }
+
ast_unref(cexp);
- ast_delete(var);
- parseerror(parser, "array-size must be a positive integer constant");
- return NULL;
+ } else {
+ var->expression.count = -1;
+ var->expression.flags |= AST_FLAG_ARRAY_INIT;
}
- ast_unref(cexp);
if (parser->tok != ']') {
ast_delete(var);
* The base type makes up every bit of type information which comes *before* the
* variable name.
*
+ * NOTE: The value must either be named, have a NULL name, or a name starting
+ * with '<'. In the first case, this will be the actual variable or type
+ * name, in the other cases it is assumed that the name will appear
+ * later, and an error is generated otherwise.
+ *
* The following will be parsed in its entirety:
* void() foo()
* The 'basetype' in this case is 'void()'
static ast_value *parse_typename(parser_t *parser, ast_value **storebase, ast_value *cached_typedef)
{
ast_value *var, *tmp;
- lex_ctx ctx;
+ lex_ctx_t ctx;
const char *name = NULL;
bool isfield = false;
ctx = parser_ctx(parser);
/* types may start with a dot */
- if (parser->tok == '.') {
+ if (parser->tok == '.' || parser->tok == TOKEN_DOTS) {
isfield = true;
+ if (parser->tok == TOKEN_DOTS)
+ morefields += 2;
/* if we parsed a dot we need a typename now */
if (!parser_next(parser)) {
parseerror(parser, "expected typename for field definition");
/* Further dots are handled seperately because they won't be part of the
* basetype
*/
- while (parser->tok == '.') {
- ++morefields;
+ while (true) {
+ if (parser->tok == '.')
+ ++morefields;
+ else if (parser->tok == TOKEN_DOTS)
+ morefields += 3;
+ else
+ break;
if (!parser_next(parser)) {
parseerror(parser, "expected typename for field definition");
return NULL;
/* parse on */
if (!parser_next(parser)) {
ast_delete(var);
+ mem_d(name);
parseerror(parser, "error after variable or field declaration");
return NULL;
}
if (parser->tok == '[') {
wasarray = true;
var = parse_arraysize(parser, var);
- if (!var)
+ if (!var) {
+ if (name) mem_d(name);
return NULL;
+ }
}
/* This is the point where we can turn it into a field */
}
/* now there may be function parens again */
- if (parser->tok == '(' && opts.standard == COMPILER_QCC)
+ if (parser->tok == '(' && OPTS_OPTION_U32(OPTION_STANDARD) == COMPILER_QCC)
parseerror(parser, "C-style function syntax is not allowed in -std=qcc");
if (parser->tok == '(' && wasarray)
parseerror(parser, "arrays as part of a return type is not supported");
while (parser->tok == '(') {
var = parse_parameter_list(parser, var);
if (!var) {
- if (name)
- mem_d((void*)name);
- ast_delete(var);
+ if (name) mem_d(name);
return NULL;
}
}
if (name) {
if (!ast_value_set_name(var, name)) {
ast_delete(var);
+ mem_d(name);
parseerror(parser, "internal error: failed to set name");
return NULL;
}
/* free the name, ast_value_set_name duplicates */
- mem_d((void*)name);
+ mem_d(name);
}
return var;
if (!typevar)
return false;
+ /* while parsing types, the ast_value's get named '<something>' */
+ if (!typevar->name || typevar->name[0] == '<') {
+ parseerror(parser, "missing name in typedef");
+ ast_delete(typevar);
+ return false;
+ }
+
if ( (old = parser_find_var(parser, typevar->name)) ) {
parseerror(parser, "cannot define a type with the same name as a variable: %s\n"
" -> `%s` has been declared here: %s:%i",
return true;
}
+static bool create_array_accessors(parser_t *parser, ast_value *var)
+{
+ char name[1024];
+ util_snprintf(name, sizeof(name), "%s##SET", var->name);
+ if (!parser_create_array_setter(parser, var, name))
+ return false;
+ util_snprintf(name, sizeof(name), "%s##GET", var->name);
+ if (!parser_create_array_getter(parser, var, var->expression.next, name))
+ return false;
+ return true;
+}
+
+static bool parse_array(parser_t *parser, ast_value *array)
+{
+ size_t i;
+ if (array->initlist) {
+ parseerror(parser, "array already initialized elsewhere");
+ return false;
+ }
+ if (!parser_next(parser)) {
+ parseerror(parser, "parse error in array initializer");
+ return false;
+ }
+ i = 0;
+ while (parser->tok != '}') {
+ ast_value *v = (ast_value*)parse_expression_leave(parser, true, false, false);
+ if (!v)
+ return false;
+ if (!ast_istype(v, ast_value) || !v->hasvalue || v->cvq != CV_CONST) {
+ ast_unref(v);
+ parseerror(parser, "initializing element must be a compile time constant");
+ return false;
+ }
+ vec_push(array->initlist, v->constval);
+ if (v->expression.vtype == TYPE_STRING) {
+ array->initlist[i].vstring = util_strdupe(array->initlist[i].vstring);
+ ++i;
+ }
+ ast_unref(v);
+ if (parser->tok == '}')
+ break;
+ if (parser->tok != ',' || !parser_next(parser)) {
+ parseerror(parser, "expected comma or '}' in element list");
+ return false;
+ }
+ }
+ if (!parser_next(parser) || parser->tok != ';') {
+ parseerror(parser, "expected semicolon after initializer, got %s");
+ return false;
+ }
+ /*
+ if (!parser_next(parser)) {
+ parseerror(parser, "parse error after initializer");
+ return false;
+ }
+ */
+
+ if (array->expression.flags & AST_FLAG_ARRAY_INIT) {
+ if (array->expression.count != (size_t)-1) {
+ parseerror(parser, "array `%s' has already been initialized with %u elements",
+ array->name, (unsigned)array->expression.count);
+ }
+ array->expression.count = vec_size(array->initlist);
+ if (!create_array_accessors(parser, array))
+ return false;
+ }
+ return true;
+}
+
static bool parse_variable(parser_t *parser, ast_block *localblock, bool nofields, int qualifier, ast_value *cached_typedef, bool noref, bool is_static, uint32_t qflags, char *vstring)
{
ast_value *var;
bool cleanvar = true;
bool wasarray = false;
- ast_member *me[3];
+ ast_member *me[3] = { NULL, NULL, NULL };
if (!localblock && is_static)
parseerror(parser, "`static` qualifier is not supported in global scope");
return false;
}
+ /* while parsing types, the ast_value's get named '<something>' */
+ if (!var->name || var->name[0] == '<') {
+ parseerror(parser, "declaration does not declare anything");
+ if (basetype)
+ ast_delete(basetype);
+ return false;
+ }
+
while (true) {
proto = NULL;
wasarray = false;
/* Part 0: finish the type */
if (parser->tok == '(') {
- if (opts.standard == COMPILER_QCC)
+ if (OPTS_OPTION_U32(OPTION_STANDARD) == COMPILER_QCC)
parseerror(parser, "C-style function syntax is not allowed in -std=qcc");
var = parse_parameter_list(parser, var);
if (!var) {
}
/* for functions returning functions */
while (parser->tok == '(') {
- if (opts.standard == COMPILER_QCC)
+ if (OPTS_OPTION_U32(OPTION_STANDARD) == COMPILER_QCC)
parseerror(parser, "C-style function syntax is not allowed in -std=qcc");
var = parse_parameter_list(parser, var);
if (!var) {
var->cvq = qualifier;
var->expression.flags |= qflags;
- if (var->expression.flags & AST_FLAG_DEPRECATED)
+
+ /*
+ * store the vstring back to var for alias and
+ * deprecation messages.
+ */
+ if (var->expression.flags & AST_FLAG_DEPRECATED ||
+ var->expression.flags & AST_FLAG_ALIAS)
var->desc = vstring;
/* Part 1:
goto cleanup;
*/
}
- if (opts.standard == COMPILER_QCC &&
+ if ((OPTS_OPTION_U32(OPTION_STANDARD) == COMPILER_QCC || OPTS_OPTION_U32(OPTION_STANDARD) == COMPILER_FTEQCC) &&
(old = parser_find_global(parser, var->name)))
{
parseerror(parser, "cannot declare a field and a global of the same name with -std=qcc");
{
/* deal with other globals */
old = parser_find_global(parser, var->name);
- if (old && var->expression.vtype == TYPE_FUNCTION && old->expression.vtype == TYPE_FUNCTION)
+ if (old && var->expression.vtype == TYPE_FUNCTION && old->vtype == TYPE_FUNCTION)
{
/* This is a function which had a prototype */
if (!ast_istype(old, ast_value)) {
ast_value_set_name(proto->expression.params[i], var->expression.params[i]->name);
if (!parser_check_qualifiers(parser, var, proto)) {
retval = false;
- if (proto->desc)
+ if (proto->desc)
mem_d(proto->desc);
proto = NULL;
goto cleanup;
ast_delete(var);
var = proto;
}
- if (opts.standard == COMPILER_QCC &&
+ if (OPTS_OPTION_U32(OPTION_STANDARD) == COMPILER_QCC &&
(old = parser_find_field(parser, var->name)))
{
parseerror(parser, "cannot declare a field and a global of the same name with -std=qcc");
retval = false;
goto cleanup;
}
+ /* doing this here as the above is just for a single scope */
old = parser_find_local(parser, var->name, 0, &isparam);
if (old && isparam) {
if (parsewarning(parser, WARN_LOCAL_SHADOWS,
retval = false;
goto cleanup;
}
- if (opts.standard != COMPILER_GMQCC) {
+ if (OPTS_OPTION_U32(OPTION_STANDARD) != COMPILER_GMQCC) {
ast_delete(var);
- var = NULL;
- goto skipvar;
+ if (ast_istype(old, ast_value))
+ var = proto = (ast_value*)old;
+ else {
+ var = NULL;
+ goto skipvar;
+ }
}
}
}
if (var->expression.vtype == TYPE_VECTOR)
isvector = true;
else if (var->expression.vtype == TYPE_FIELD &&
- var->expression.next->expression.vtype == TYPE_VECTOR)
+ var->expression.next->vtype == TYPE_VECTOR)
isvector = true;
if (isvector) {
}
}
else {
- parser_addglobal(parser, var->name, (ast_expression*)var);
- if (isvector) {
- for (i = 0; i < 3; ++i) {
- parser_addglobal(parser, me[i]->name, (ast_expression*)me[i]);
+ if (!(var->expression.flags & AST_FLAG_ALIAS)) {
+ parser_addglobal(parser, var->name, (ast_expression*)var);
+ if (isvector) {
+ for (i = 0; i < 3; ++i) {
+ parser_addglobal(parser, me[i]->name, (ast_expression*)me[i]);
+ }
+ }
+ } else {
+ ast_expression *find = parser_find_global(parser, var->desc);
+
+ if (!find) {
+ compile_error(parser_ctx(parser), "undeclared variable `%s` for alias `%s`", var->desc, var->name);
+ return false;
+ }
+
+ if (!ast_compare_type((ast_expression*)var, find)) {
+ char ty1[1024];
+ char ty2[1024];
+
+ ast_type_to_string(find, ty1, sizeof(ty1));
+ ast_type_to_string((ast_expression*)var, ty2, sizeof(ty2));
+
+ compile_error(parser_ctx(parser), "incompatible types `%s` and `%s` for alias `%s`",
+ ty1, ty2, var->name
+ );
+ return false;
+ }
+
+ /*
+ * add alias to aliases table and to corrector
+ * so corrections can apply for aliases as well.
+ */
+ util_htset(parser->aliases, var->name, find);
+
+ /*
+ * add to corrector so corrections can work
+ * even for aliases too.
+ */
+ correct_add (
+ vec_last(parser->correct_variables),
+ &vec_last(parser->correct_variables_score),
+ var->name
+ );
+
+ /* generate aliases for vector components */
+ if (isvector) {
+ char *buffer[3];
+
+ util_asprintf(&buffer[0], "%s_x", var->desc);
+ util_asprintf(&buffer[1], "%s_y", var->desc);
+ util_asprintf(&buffer[2], "%s_z", var->desc);
+
+ util_htset(parser->aliases, me[0]->name, parser_find_global(parser, buffer[0]));
+ util_htset(parser->aliases, me[1]->name, parser_find_global(parser, buffer[1]));
+ util_htset(parser->aliases, me[2]->name, parser_find_global(parser, buffer[2]));
+
+ mem_d(buffer[0]);
+ mem_d(buffer[1]);
+ mem_d(buffer[2]);
+
+ /*
+ * add to corrector so corrections can work
+ * even for aliases too.
+ */
+ correct_add (
+ vec_last(parser->correct_variables),
+ &vec_last(parser->correct_variables_score),
+ me[0]->name
+ );
+ correct_add (
+ vec_last(parser->correct_variables),
+ &vec_last(parser->correct_variables_score),
+ me[1]->name
+ );
+ correct_add (
+ vec_last(parser->correct_variables),
+ &vec_last(parser->correct_variables_score),
+ me[2]->name
+ );
}
}
}
* deal with arrays
*/
if (var->expression.vtype == TYPE_ARRAY) {
- char name[1024];
- snprintf(name, sizeof(name), "%s##SET", var->name);
- if (!parser_create_array_setter(parser, var, name))
- goto cleanup;
- snprintf(name, sizeof(name), "%s##GET", var->name);
- if (!parser_create_array_getter(parser, var, var->expression.next, name))
- goto cleanup;
+ if (var->expression.count != (size_t)-1) {
+ if (!create_array_accessors(parser, var))
+ goto cleanup;
+ }
}
else if (!localblock && !nofields &&
var->expression.vtype == TYPE_FIELD &&
- var->expression.next->expression.vtype == TYPE_ARRAY)
+ var->expression.next->vtype == TYPE_ARRAY)
{
char name[1024];
ast_expression *telem;
goto cleanup;
}
- snprintf(name, sizeof(name), "%s##SETF", var->name);
+ util_snprintf(name, sizeof(name), "%s##SETF", var->name);
if (!parser_create_array_field_setter(parser, array, name))
goto cleanup;
telem = ast_type_copy(ast_ctx(var), array->expression.next);
tfield = ast_value_new(ast_ctx(var), "<.type>", TYPE_FIELD);
tfield->expression.next = telem;
- snprintf(name, sizeof(name), "%s##GETFP", var->name);
+ util_snprintf(name, sizeof(name), "%s##GETFP", var->name);
if (!parser_create_array_getter(parser, array, (ast_expression*)tfield, name)) {
ast_delete(tfield);
goto cleanup;
break;
}
- if (localblock && opts.standard == COMPILER_QCC) {
+ if (localblock && OPTS_OPTION_U32(OPTION_STANDARD) == COMPILER_QCC) {
if (parsewarning(parser, WARN_LOCAL_CONSTANTS,
"initializing expression turns variable `%s` into a constant in this standard",
var->name) )
}
}
- if (parser->tok != '{') {
+ if (parser->tok != '{' || var->expression.vtype != TYPE_FUNCTION) {
if (parser->tok != '=') {
- parseerror(parser, "missing semicolon or initializer, got: `%s`", parser_tokval(parser));
- break;
+ if (!strcmp(parser_tokval(parser), "break")) {
+ if (!parser_next(parser)) {
+ parseerror(parser, "error parsing break definition");
+ break;
+ }
+ (void)!parsewarning(parser, WARN_BREAKDEF, "break definition ignored (suggest removing it)");
+ } else {
+ parseerror(parser, "missing semicolon or initializer, got: `%s`", parser_tokval(parser));
+ break;
+ }
}
if (!parser_next(parser)) {
break;
}
}
- else if (opts.standard == COMPILER_QCC) {
+ else if (OPTS_OPTION_U32(OPTION_STANDARD) == COMPILER_QCC) {
parseerror(parser, "expected '=' before function body in this standard");
}
if (parser->tok == '#') {
- ast_function *func = NULL;
+ ast_function *func = NULL;
+ ast_value *number = NULL;
+ float fractional;
+ float integral;
+ int builtin_num;
if (localblock) {
parseerror(parser, "cannot declare builtins within functions");
parseerror(parser, "expected builtin number");
break;
}
- if (parser->tok != TOKEN_INTCONST) {
- parseerror(parser, "builtin number must be an integer constant");
- break;
- }
- if (parser_token(parser)->constval.i < 0) {
- parseerror(parser, "builtin number must be an integer greater than zero");
+
+ if (OPTS_FLAG(EXPRESSIONS_FOR_BUILTINS)) {
+ number = (ast_value*)parse_expression_leave(parser, true, false, false);
+ if (!number) {
+ parseerror(parser, "builtin number expected");
+ break;
+ }
+ if (!ast_istype(number, ast_value) || !number->hasvalue || number->cvq != CV_CONST)
+ {
+ ast_unref(number);
+ parseerror(parser, "builtin number must be a compile time constant");
+ break;
+ }
+ if (number->expression.vtype == TYPE_INTEGER)
+ builtin_num = number->constval.vint;
+ else if (number->expression.vtype == TYPE_FLOAT)
+ builtin_num = number->constval.vfloat;
+ else {
+ ast_unref(number);
+ parseerror(parser, "builtin number must be an integer constant");
+ break;
+ }
+ ast_unref(number);
+
+ fractional = modff(builtin_num, &integral);
+ if (builtin_num < 0 || fractional != 0) {
+ parseerror(parser, "builtin number must be an integer greater than zero");
+ break;
+ }
+
+ /* we only want the integral part anyways */
+ builtin_num = integral;
+ } else if (parser->tok == TOKEN_INTCONST) {
+ builtin_num = parser_token(parser)->constval.i;
+ } else {
+ parseerror(parser, "builtin number must be a compile time constant");
break;
}
}
vec_push(parser->functions, func);
- func->builtin = -parser_token(parser)->constval.i-1;
+ func->builtin = -builtin_num-1;
}
- if (!parser_next(parser)) {
+ if (OPTS_FLAG(EXPRESSIONS_FOR_BUILTINS)
+ ? (parser->tok != ',' && parser->tok != ';')
+ : (!parser_next(parser)))
+ {
parseerror(parser, "expected comma or semicolon");
if (func)
ast_function_delete(func);
break;
}
}
- else if (parser->tok == '{' || parser->tok == '[')
+ else if (var->expression.vtype == TYPE_ARRAY && parser->tok == '{')
+ {
+ if (localblock) {
+ /* Note that fteqcc and most others don't even *have*
+ * local arrays, so this is not a high priority.
+ */
+ parseerror(parser, "TODO: initializers for local arrays");
+ break;
+ }
+
+ var->hasvalue = true;
+ if (!parse_array(parser, var))
+ break;
+ }
+ else if (var->expression.vtype == TYPE_FUNCTION && (parser->tok == '{' || parser->tok == '['))
{
if (localblock) {
parseerror(parser, "cannot declare functions within functions");
}
} else {
int cvq;
- shunt sy = { NULL, NULL };
+ shunt sy = { NULL, NULL, NULL, NULL };
cvq = var->cvq;
var->cvq = CV_NONE;
vec_push(sy.out, syexp(ast_ctx(var), (ast_expression*)var));
}
vec_free(sy.out);
vec_free(sy.ops);
+ vec_free(sy.argc);
var->cvq = cvq;
}
}
if (parser->tok == TOKEN_IDENT)
istype = parser_find_typedef(parser, parser_tokval(parser), 0);
- if (istype || parser->tok == TOKEN_TYPENAME || parser->tok == '.')
+ if (istype || parser->tok == TOKEN_TYPENAME || parser->tok == '.' || parser->tok == TOKEN_DOTS)
{
return parse_variable(parser, NULL, false, CV_NONE, istype, false, false, 0, NULL);
}
}
else
{
- parseerror(parser, "unexpected token: %s", parser->lex->tok.value);
+ parseerror(parser, "unexpected token: `%s`", parser->lex->tok.value);
return false;
}
return true;
return old;
}
-static void generate_checksum(parser_t *parser)
+static void generate_checksum(parser_t *parser, ir_builder *ir)
{
uint16_t crc = 0xFFFF;
size_t i;
if (!ast_istype(parser->fields[i], ast_value))
continue;
value = (ast_value*)(parser->fields[i]);
- switch (value->expression.next->expression.vtype) {
+ switch (value->expression.next->vtype) {
case TYPE_FLOAT: crc = progdefs_crc_both(crc, "\tfloat\t"); break;
case TYPE_VECTOR: crc = progdefs_crc_both(crc, "\tvec3_t\t"); break;
case TYPE_STRING: crc = progdefs_crc_both(crc, "\tstring_t\t"); break;
crc = progdefs_crc_both(crc, ";\n");
}
crc = progdefs_crc_both(crc, "} entvars_t;\n\n");
-
- code_crc = crc;
+ ir->code->crc = crc;
}
-static parser_t *parser;
-
-bool parser_init()
+parser_t *parser_create()
{
- lex_ctx empty_ctx;
+ parser_t *parser;
+ lex_ctx_t empty_ctx;
size_t i;
parser = (parser_t*)mem_a(sizeof(parser_t));
if (!parser)
- return false;
+ return NULL;
memset(parser, 0, sizeof(*parser));
}
}
if (!parser->assign_op) {
- printf("internal error: initializing parser: failed to find assign operator\n");
+ con_err("internal error: initializing parser: failed to find assign operator\n");
mem_d(parser);
- return false;
+ return NULL;
}
vec_push(parser->variables, parser->htfields = util_htnew(PARSER_HT_SIZE));
vec_push(parser->typedefs, util_htnew(TYPEDEF_HT_SIZE));
vec_push(parser->_blocktypedefs, 0);
+ parser->aliases = util_htnew(PARSER_HT_SIZE);
+
/* corrector */
vec_push(parser->correct_variables, correct_trie_new());
vec_push(parser->correct_variables_score, NULL);
- empty_ctx.file = "<internal>";
- empty_ctx.line = 0;
+ empty_ctx.file = "<internal>";
+ empty_ctx.line = 0;
+ empty_ctx.column = 0;
parser->nil = ast_value_new(empty_ctx, "nil", TYPE_NIL);
parser->nil->cvq = CV_CONST;
if (OPTS_FLAG(UNTYPED_NIL))
util_htset(parser->htglobals, "nil", (void*)parser->nil);
+ parser->max_param_count = 1;
+
parser->const_vec[0] = ast_value_new(empty_ctx, "<vector.x>", TYPE_NOEXPR);
parser->const_vec[1] = ast_value_new(empty_ctx, "<vector.y>", TYPE_NOEXPR);
parser->const_vec[2] = ast_value_new(empty_ctx, "<vector.z>", TYPE_NOEXPR);
- if (opts.add_info) {
+ if (OPTS_OPTION_BOOL(OPTION_ADD_INFO)) {
parser->reserved_version = ast_value_new(empty_ctx, "reserved:version", TYPE_STRING);
parser->reserved_version->cvq = CV_CONST;
parser->reserved_version->hasvalue = true;
} else {
parser->reserved_version = NULL;
}
- return true;
+
+ parser->fold = fold_init (parser);
+ parser->intrin = intrin_init(parser);
+ return parser;
}
-bool parser_compile()
+static bool parser_compile(parser_t *parser)
{
/* initial lexer/parser state */
parser->lex->flags.noops = true;
{
if (!parser_global_statement(parser)) {
if (parser->tok == TOKEN_EOF)
- parseerror(parser, "unexpected eof");
+ parseerror(parser, "unexpected end of file");
else if (compile_errors)
parseerror(parser, "there have been errors, bailing out");
lex_close(parser->lex);
return !compile_errors;
}
-bool parser_compile_file(const char *filename)
+bool parser_compile_file(parser_t *parser, const char *filename)
{
parser->lex = lex_open(filename);
if (!parser->lex) {
con_err("failed to open file \"%s\"\n", filename);
return false;
}
- return parser_compile();
+ return parser_compile(parser);
}
-bool parser_compile_string(const char *name, const char *str, size_t len)
+bool parser_compile_string(parser_t *parser, const char *name, const char *str, size_t len)
{
parser->lex = lex_open_string(str, len, name);
if (!parser->lex) {
con_err("failed to create lexer for string \"%s\"\n", name);
return false;
}
- return parser_compile();
+ return parser_compile(parser);
}
-void parser_cleanup()
+static void parser_remove_ast(parser_t *parser)
{
size_t i;
+ if (parser->ast_cleaned)
+ return;
+ parser->ast_cleaned = true;
for (i = 0; i < vec_size(parser->accessors); ++i) {
ast_delete(parser->accessors[i]->constval.vfunc);
parser->accessors[i]->constval.vfunc = NULL;
for (i = 0; i < vec_size(parser->functions); ++i) {
ast_delete(parser->functions[i]);
}
- for (i = 0; i < vec_size(parser->imm_vector); ++i) {
- ast_delete(parser->imm_vector[i]);
- }
- for (i = 0; i < vec_size(parser->imm_string); ++i) {
- ast_delete(parser->imm_string[i]);
- }
- for (i = 0; i < vec_size(parser->imm_float); ++i) {
- ast_delete(parser->imm_float[i]);
- }
for (i = 0; i < vec_size(parser->fields); ++i) {
ast_delete(parser->fields[i]);
}
}
vec_free(parser->accessors);
vec_free(parser->functions);
- vec_free(parser->imm_vector);
- vec_free(parser->imm_string);
- vec_free(parser->imm_float);
vec_free(parser->globals);
vec_free(parser->fields);
vec_free(parser->correct_variables);
vec_free(parser->correct_variables_score);
-
for (i = 0; i < vec_size(parser->_typedefs); ++i)
ast_delete(parser->_typedefs[i]);
vec_free(parser->_typedefs);
ast_value_delete(parser->const_vec[1]);
ast_value_delete(parser->const_vec[2]);
+ if (parser->reserved_version)
+ ast_value_delete(parser->reserved_version);
+
+ util_htdel(parser->aliases);
+ fold_cleanup(parser->fold);
+ intrin_cleanup(parser->intrin);
+}
+
+void parser_cleanup(parser_t *parser)
+{
+ parser_remove_ast(parser);
mem_d(parser);
}
-bool parser_finish(const char *output)
+bool parser_finish(parser_t *parser, const char *output)
{
size_t i;
ir_builder *ir;
ast_expression *subtype;
field->hasvalue = true;
subtype = field->expression.next;
- ifld = ir_builder_create_field(ir, field->name, subtype->expression.vtype);
- if (subtype->expression.vtype == TYPE_FIELD)
- ifld->fieldtype = subtype->expression.next->expression.vtype;
- else if (subtype->expression.vtype == TYPE_FUNCTION)
- ifld->outtype = subtype->expression.next->expression.vtype;
+ ifld = ir_builder_create_field(ir, field->name, subtype->vtype);
+ if (subtype->vtype == TYPE_FIELD)
+ ifld->fieldtype = subtype->next->vtype;
+ else if (subtype->vtype == TYPE_FUNCTION)
+ ifld->outtype = subtype->next->vtype;
(void)!ir_value_set_field(field->ir_v, ifld);
}
}
continue;
asvalue = (ast_value*)(parser->globals[i]);
if (!asvalue->uses && !asvalue->hasvalue && asvalue->expression.vtype != TYPE_FUNCTION) {
- retval = retval && !genwarning(ast_ctx(asvalue), WARN_UNUSED_VARIABLE,
- "unused global: `%s`", asvalue->name);
+ retval = retval && !compile_warning(ast_ctx(asvalue), WARN_UNUSED_VARIABLE,
+ "unused global: `%s`", asvalue->name);
}
if (!ast_global_codegen(asvalue, ir, false)) {
con_out("failed to generate global %s\n", asvalue->name);
return false;
}
}
- if (parser->reserved_version &&
- !ast_global_codegen(parser->reserved_version, ir, false))
- {
- con_out("failed to generate reserved::version");
- ir_builder_delete(ir);
- return false;
- }
- for (i = 0; i < vec_size(parser->imm_float); ++i) {
- if (!ast_global_codegen(parser->imm_float[i], ir, false)) {
- con_out("failed to generate global %s\n", parser->imm_float[i]->name);
- ir_builder_delete(ir);
- return false;
- }
- }
- for (i = 0; i < vec_size(parser->imm_string); ++i) {
- if (!ast_global_codegen(parser->imm_string[i], ir, false)) {
- con_out("failed to generate global %s\n", parser->imm_string[i]->name);
- ir_builder_delete(ir);
- return false;
- }
- }
- for (i = 0; i < vec_size(parser->imm_vector); ++i) {
- if (!ast_global_codegen(parser->imm_vector[i], ir, false)) {
- con_out("failed to generate global %s\n", parser->imm_vector[i]->name);
- ir_builder_delete(ir);
- return false;
+ /* Build function vararg accessor ast tree now before generating
+ * immediates, because the accessors may add new immediates
+ */
+ for (i = 0; i < vec_size(parser->functions); ++i) {
+ ast_function *f = parser->functions[i];
+ if (f->varargs) {
+ if (parser->max_param_count > vec_size(f->vtype->expression.params)) {
+ f->varargs->expression.count = parser->max_param_count - vec_size(f->vtype->expression.params);
+ if (!parser_create_array_setter_impl(parser, f->varargs)) {
+ con_out("failed to generate vararg setter for %s\n", f->name);
+ ir_builder_delete(ir);
+ return false;
+ }
+ if (!parser_create_array_getter_impl(parser, f->varargs)) {
+ con_out("failed to generate vararg getter for %s\n", f->name);
+ ir_builder_delete(ir);
+ return false;
+ }
+ } else {
+ ast_delete(f->varargs);
+ f->varargs = NULL;
+ }
}
}
+ /* Now we can generate immediates */
+ if (!fold_generate(parser->fold, ir))
+ return false;
+
for (i = 0; i < vec_size(parser->globals); ++i) {
ast_value *asvalue;
if (!ast_istype(parser->globals[i], ast_value))
}
for (i = 0; i < vec_size(parser->fields); ++i) {
ast_value *asvalue;
- asvalue = (ast_value*)(parser->fields[i]->expression.next);
+ asvalue = (ast_value*)(parser->fields[i]->next);
if (!ast_istype((ast_expression*)asvalue, ast_value))
continue;
return false;
}
}
+ if (parser->reserved_version &&
+ !ast_global_codegen(parser->reserved_version, ir, false))
+ {
+ con_out("failed to generate reserved::version");
+ ir_builder_delete(ir);
+ return false;
+ }
for (i = 0; i < vec_size(parser->functions); ++i) {
- if (!ast_function_codegen(parser->functions[i], ir)) {
- con_out("failed to generate function %s\n", parser->functions[i]->name);
+ ast_function *f = parser->functions[i];
+ if (!ast_function_codegen(f, ir)) {
+ con_out("failed to generate function %s\n", f->name);
ir_builder_delete(ir);
return false;
}
}
- if (opts.dump)
+
+ generate_checksum(parser, ir);
+
+ if (OPTS_OPTION_BOOL(OPTION_DUMP))
ir_builder_dump(ir, con_out);
for (i = 0; i < vec_size(parser->functions); ++i) {
if (!ir_function_finalize(parser->functions[i]->ir_func)) {
return false;
}
}
+ parser_remove_ast(parser);
if (compile_Werrors) {
con_out("*** there were warnings treated as errors\n");
}
if (retval) {
- if (opts.dumpfin)
+ if (OPTS_OPTION_BOOL(OPTION_DUMPFIN))
ir_builder_dump(ir, con_out);
- generate_checksum(parser);
-
if (!ir_builder_generate(ir, output)) {
con_out("*** failed to generate output file\n");
ir_builder_delete(ir);
return false;
}
}
-
ir_builder_delete(ir);
return retval;
}