dlls/vbscript/compile.c - wine - Git at Google

 /*
  * Copyright 2011 Jacek Caban for CodeWeavers
  *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Lesser General Public
  * License as published by the Free Software Foundation; either
  * version 2.1 of the License, or (at your option) any later version.
  *
  * This library is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * Lesser General Public License for more details.
  *
  * You should have received a copy of the GNU Lesser General Public
  * License along with this library; if not, write to the Free Software
  * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
  */

 #include <assert.h>

 #include "vbscript.h"
 #include "parse.h"
 #include "parser.tab.h"

 #include "wine/debug.h"

 WINE_DEFAULT_DEBUG_CHANNEL(vbscript);

 typedef struct {
     parser_ctx_t parser;

     unsigned instr_cnt;
     unsigned instr_size;
     vbscode_t *code;
 } compile_ctx_t;

 static HRESULT compile_expression(compile_ctx_t*,expression_t*);

 static inline void *compiler_alloc(vbscode_t *vbscode, size_t size)
 {
     return vbsheap_alloc(&vbscode->heap, size);
 }

 static WCHAR *compiler_alloc_string(vbscode_t *vbscode, const WCHAR *str)
 {
     size_t size;
     WCHAR *ret;

     size = (strlenW(str)+1)*sizeof(WCHAR);
     ret = compiler_alloc(vbscode, size);
     if(ret)
         memcpy(ret, str, size);
     return ret;
 }

 static inline instr_t *instr_ptr(compile_ctx_t *ctx, unsigned id)
 {
     assert(id < ctx->instr_cnt);
     return ctx->code->instrs + id;
 }

 static unsigned push_instr(compile_ctx_t *ctx, vbsop_t op)
 {
     assert(ctx->instr_size && ctx->instr_size >= ctx->instr_cnt);

     if(ctx->instr_size == ctx->instr_cnt) {
         instr_t *new_instr;

         new_instr = heap_realloc(ctx->code->instrs, ctx->instr_size*2*sizeof(instr_t));
         if(!new_instr)
             return -1;

         ctx->code->instrs = new_instr;
         ctx->instr_size *= 2;
     }

     ctx->code->instrs[ctx->instr_cnt].op = op;
     return ctx->instr_cnt++;
 }

 static HRESULT push_instr_int(compile_ctx_t *ctx, vbsop_t op, LONG arg)
 {
     unsigned ret;

     ret = push_instr(ctx, op);
     if(ret == -1)
         return E_OUTOFMEMORY;

     instr_ptr(ctx, ret)->arg1.lng = arg;
     return S_OK;
 }

 static HRESULT push_instr_str(compile_ctx_t *ctx, vbsop_t op, const WCHAR *arg)
 {
     unsigned instr;
     WCHAR *str;

     str = compiler_alloc_string(ctx->code, arg);
     if(!str)
         return E_OUTOFMEMORY;

     instr = push_instr(ctx, op);
     if(instr == -1)
         return E_OUTOFMEMORY;

     instr_ptr(ctx, instr)->arg1.str = str;
     return S_OK;
 }

 static HRESULT push_instr_double(compile_ctx_t *ctx, vbsop_t op, double arg)
 {
     unsigned instr;
     double *d;

     d = compiler_alloc(ctx->code, sizeof(double));
     if(!d)
         return E_OUTOFMEMORY;

     instr = push_instr(ctx, op);
     if(instr == -1)
         return E_OUTOFMEMORY;

     *d = arg;
     instr_ptr(ctx, instr)->arg1.dbl = d;
     return S_OK;
 }

 static BSTR alloc_bstr_arg(compile_ctx_t *ctx, const WCHAR *str)
 {
     if(!ctx->code->bstr_pool_size) {
         ctx->code->bstr_pool = heap_alloc(8 * sizeof(BSTR));
         if(!ctx->code->bstr_pool)
             return NULL;
         ctx->code->bstr_pool_size = 8;
     }else if(ctx->code->bstr_pool_size == ctx->code->bstr_cnt) {
        BSTR *new_pool;

         new_pool = heap_realloc(ctx->code->bstr_pool, ctx->code->bstr_pool_size*2*sizeof(BSTR));
         if(!new_pool)
             return NULL;

         ctx->code->bstr_pool = new_pool;
         ctx->code->bstr_pool_size *= 2;
     }

     ctx->code->bstr_pool[ctx->code->bstr_cnt] = SysAllocString(str);
     if(!ctx->code->bstr_pool[ctx->code->bstr_cnt])
         return NULL;

     return ctx->code->bstr_pool[ctx->code->bstr_cnt++];
 }

 static HRESULT push_instr_bstr(compile_ctx_t *ctx, vbsop_t op, const WCHAR *arg)
 {
     unsigned instr;
     BSTR bstr;

     bstr = alloc_bstr_arg(ctx, arg);
     if(!bstr)
         return E_OUTOFMEMORY;

     instr = push_instr(ctx, op);
     if(instr == -1)
         return E_OUTOFMEMORY;

     instr_ptr(ctx, instr)->arg1.bstr = bstr;
     return S_OK;
 }

 static HRESULT push_instr_bstr_uint(compile_ctx_t *ctx, vbsop_t op, const WCHAR *arg1, unsigned arg2)
 {
     unsigned instr;
     BSTR bstr;

     bstr = alloc_bstr_arg(ctx, arg1);
     if(!bstr)
         return E_OUTOFMEMORY;

     instr = push_instr(ctx, op);
     if(instr == -1)
         return E_OUTOFMEMORY;

     instr_ptr(ctx, instr)->arg1.bstr = bstr;
     instr_ptr(ctx, instr)->arg2.uint = arg2;
     return S_OK;
 }

 static HRESULT compile_args(compile_ctx_t *ctx, expression_t *args, unsigned *ret)
 {
     unsigned arg_cnt = 0;
     HRESULT hres;

     while(args) {
         hres = compile_expression(ctx, args);
         if(FAILED(hres))
             return hres;

         arg_cnt++;
         args = args->next;
     }

     *ret = arg_cnt;
     return S_OK;
 }

 static HRESULT compile_member_expression(compile_ctx_t *ctx, member_expression_t *expr, BOOL ret_val)
 {
     unsigned arg_cnt = 0;
     HRESULT hres;

     hres = compile_args(ctx, expr->args, &arg_cnt);
     if(FAILED(hres))
         return hres;

     if(expr->obj_expr) {
         FIXME("obj_expr not implemented\n");
         hres = E_NOTIMPL;
     }else {
         hres = push_instr_bstr_uint(ctx, ret_val ? OP_icall : OP_icallv, expr->identifier, arg_cnt);
     }

     return hres;
 }

 static HRESULT compile_unary_expression(compile_ctx_t *ctx, unary_expression_t *expr, vbsop_t op)
 {
     HRESULT hres;

     hres = compile_expression(ctx, expr->subexpr);
     if(FAILED(hres))
         return hres;

     return push_instr(ctx, op) == -1 ? E_OUTOFMEMORY : S_OK;
 }

 static HRESULT compile_binary_expression(compile_ctx_t *ctx, binary_expression_t *expr, vbsop_t op)
 {
     HRESULT hres;

     hres = compile_expression(ctx, expr->left);
     if(FAILED(hres))
         return hres;

     hres = compile_expression(ctx, expr->right);
     if(FAILED(hres))
         return hres;

     return push_instr(ctx, op) == -1 ? E_OUTOFMEMORY : S_OK;
 }

 static HRESULT compile_expression(compile_ctx_t *ctx, expression_t *expr)
 {
     switch(expr->type) {
     case EXPR_ADD:
         return compile_binary_expression(ctx, (binary_expression_t*)expr, OP_add);
     case EXPR_BOOL:
         return push_instr_int(ctx, OP_bool, ((bool_expression_t*)expr)->value);
     case EXPR_CONCAT:
         return compile_binary_expression(ctx, (binary_expression_t*)expr, OP_concat);
     case EXPR_DOUBLE:
         return push_instr_double(ctx, OP_double, ((double_expression_t*)expr)->value);
     case EXPR_EMPTY:
         return push_instr(ctx, OP_empty) != -1 ? S_OK : E_OUTOFMEMORY;
     case EXPR_EQUAL:
         return compile_binary_expression(ctx, (binary_expression_t*)expr, OP_equal);
     case EXPR_MEMBER:
         return compile_member_expression(ctx, (member_expression_t*)expr, TRUE);
     case EXPR_NEG:
         return compile_unary_expression(ctx, (unary_expression_t*)expr, OP_neg);
     case EXPR_NEQUAL:
         return compile_binary_expression(ctx, (binary_expression_t*)expr, OP_nequal);
     case EXPR_NOT:
         return compile_unary_expression(ctx, (unary_expression_t*)expr, OP_not);
     case EXPR_NULL:
         return push_instr(ctx, OP_null) != -1 ? S_OK : E_OUTOFMEMORY;
     case EXPR_STRING:
         return push_instr_str(ctx, OP_string, ((string_expression_t*)expr)->value);
     case EXPR_SUB:
         return compile_binary_expression(ctx, (binary_expression_t*)expr, OP_sub);
     case EXPR_USHORT:
         return push_instr_int(ctx, OP_short, ((int_expression_t*)expr)->value);
     case EXPR_ULONG:
         return push_instr_int(ctx, OP_long, ((int_expression_t*)expr)->value);
     default:
         FIXME("Unimplemented expression type %d\n", expr->type);
         return E_NOTIMPL;
     }

     return S_OK;
 }

 static HRESULT compile_assign_statement(compile_ctx_t *ctx, assign_statement_t *stat)
 {
     HRESULT hres;

     hres = compile_expression(ctx, stat->value_expr);
     if(FAILED(hres))
         return hres;

     if(stat->member_expr->args) {
         FIXME("arguments support not implemented\n");
         return E_NOTIMPL;
     }

     if(stat->member_expr->obj_expr) {
         FIXME("obj_expr not implemented\n");
         hres = E_NOTIMPL;
     }else {
         hres = push_instr_bstr(ctx, OP_assign_ident, stat->member_expr->identifier);
     }

     return hres;
 }

 static HRESULT compile_statement(compile_ctx_t *ctx, statement_t *stat)
 {
     HRESULT hres;

     while(stat) {
         switch(stat->type) {
         case STAT_ASSIGN:
             hres = compile_assign_statement(ctx, (assign_statement_t*)stat);
             break;
         case STAT_CALL:
             hres = compile_member_expression(ctx, ((call_statement_t*)stat)->expr, FALSE);
             break;
         default:
             FIXME("Unimplemented statement type %d\n", stat->type);
             hres = E_NOTIMPL;
         }

         if(FAILED(hres))
             return hres;
         stat = stat->next;
     }

     return S_OK;
 }

 static HRESULT compile_func(compile_ctx_t *ctx, statement_t *stat, function_t *func)
 {
     HRESULT hres;

     func->code_off = ctx->instr_cnt;

     hres = compile_statement(ctx, stat);
     if(FAILED(hres))
         return hres;

     if(push_instr(ctx, OP_ret) == -1)
         return E_OUTOFMEMORY;

     return S_OK;
 }

 void release_vbscode(vbscode_t *code)
 {
     unsigned i;

     list_remove(&code->entry);

     for(i=0; i < code->bstr_cnt; i++)
         SysFreeString(code->bstr_pool[i]);

     vbsheap_free(&code->heap);

     heap_free(code->bstr_pool);
     heap_free(code->source);
     heap_free(code->instrs);
     heap_free(code);
 }

 static vbscode_t *alloc_vbscode(compile_ctx_t *ctx, const WCHAR *source)
 {
     vbscode_t *ret;

     ret = heap_alloc(sizeof(*ret));
     if(!ret)
         return NULL;

     ret->source = heap_strdupW(source);
     if(!ret->source) {
         heap_free(ret);
         return NULL;
     }

     ret->instrs = heap_alloc(32*sizeof(instr_t));
     if(!ret->instrs) {
         release_vbscode(ret);
         return NULL;
     }

     ctx->instr_cnt = 0;
     ctx->instr_size = 32;
     vbsheap_init(&ret->heap);

     ret->option_explicit = ctx->parser.option_explicit;

     ret->bstr_pool = NULL;
     ret->bstr_pool_size = 0;
     ret->bstr_cnt = 0;

     ret->global_code.code_ctx = ret;

     list_init(&ret->entry);
     return ret;
 }

 HRESULT compile_script(script_ctx_t *script, const WCHAR *src, vbscode_t **ret)
 {
     compile_ctx_t ctx;
     HRESULT hres;

     hres = parse_script(&ctx.parser, src);
     if(FAILED(hres))
         return hres;

     ctx.code = alloc_vbscode(&ctx, src);
     if(!ctx.code)
         return E_OUTOFMEMORY;

     hres = compile_func(&ctx, ctx.parser.stats, &ctx.code->global_code);
     if(FAILED(hres)) {
         release_vbscode(ctx.code);
         return hres;
     }

     list_add_tail(&script->code_list, &ctx.code->entry);
     *ret = ctx.code;
     return S_OK;
 }
	/*
	* Copyright 2011 Jacek Caban for CodeWeavers
	*
	* This library is free software; you can redistribute it and/or
	* modify it under the terms of the GNU Lesser General Public
	* License as published by the Free Software Foundation; either
	* version 2.1 of the License, or (at your option) any later version.
	*
	* This library is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	* Lesser General Public License for more details.
	*
	* You should have received a copy of the GNU Lesser General Public
	* License along with this library; if not, write to the Free Software
	* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
	*/

	#include <assert.h>

	#include "vbscript.h"
	#include "parse.h"
	#include "parser.tab.h"

	#include "wine/debug.h"

	WINE_DEFAULT_DEBUG_CHANNEL(vbscript);

	typedef struct {
	parser_ctx_t parser;

	unsigned instr_cnt;
	unsigned instr_size;
	vbscode_t *code;
	} compile_ctx_t;

	static HRESULT compile_expression(compile_ctx_t,expression_t);

	static inline void compiler_alloc(vbscode_t vbscode, size_t size)
	{
	return vbsheap_alloc(&vbscode->heap, size);
	}

	static WCHAR compiler_alloc_string(vbscode_t vbscode, const WCHAR *str)
	{
	size_t size;
	WCHAR *ret;

	size = (strlenW(str)+1)*sizeof(WCHAR);
	ret = compiler_alloc(vbscode, size);
	if(ret)
	memcpy(ret, str, size);
	return ret;
	}

	static inline instr_t instr_ptr(compile_ctx_t ctx, unsigned id)
	{
	assert(id < ctx->instr_cnt);
	return ctx->code->instrs + id;
	}

	static unsigned push_instr(compile_ctx_t *ctx, vbsop_t op)
	{
	assert(ctx->instr_size && ctx->instr_size >= ctx->instr_cnt);

	if(ctx->instr_size == ctx->instr_cnt) {
	instr_t *new_instr;

	new_instr = heap_realloc(ctx->code->instrs, ctx->instr_size2sizeof(instr_t));
	if(!new_instr)
	return -1;

	ctx->code->instrs = new_instr;
	ctx->instr_size *= 2;
	}

	ctx->code->instrs[ctx->instr_cnt].op = op;
	return ctx->instr_cnt++;
	}

	static HRESULT push_instr_int(compile_ctx_t *ctx, vbsop_t op, LONG arg)
	{
	unsigned ret;

	ret = push_instr(ctx, op);
	if(ret == -1)
	return E_OUTOFMEMORY;

	instr_ptr(ctx, ret)->arg1.lng = arg;
	return S_OK;
	}

	static HRESULT push_instr_str(compile_ctx_t ctx, vbsop_t op, const WCHAR arg)
	{
	unsigned instr;
	WCHAR *str;

	str = compiler_alloc_string(ctx->code, arg);
	if(!str)
	return E_OUTOFMEMORY;

	instr = push_instr(ctx, op);
	if(instr == -1)
	return E_OUTOFMEMORY;

	instr_ptr(ctx, instr)->arg1.str = str;
	return S_OK;
	}

	static HRESULT push_instr_double(compile_ctx_t *ctx, vbsop_t op, double arg)
	{
	unsigned instr;
	double *d;

	d = compiler_alloc(ctx->code, sizeof(double));
	if(!d)
	return E_OUTOFMEMORY;

	instr = push_instr(ctx, op);
	if(instr == -1)
	return E_OUTOFMEMORY;

	*d = arg;
	instr_ptr(ctx, instr)->arg1.dbl = d;
	return S_OK;
	}

	static BSTR alloc_bstr_arg(compile_ctx_t ctx, const WCHAR str)
	{
	if(!ctx->code->bstr_pool_size) {
	ctx->code->bstr_pool = heap_alloc(8 * sizeof(BSTR));
	if(!ctx->code->bstr_pool)
	return NULL;
	ctx->code->bstr_pool_size = 8;
	}else if(ctx->code->bstr_pool_size == ctx->code->bstr_cnt) {
	BSTR *new_pool;

	new_pool = heap_realloc(ctx->code->bstr_pool, ctx->code->bstr_pool_size2sizeof(BSTR));
	if(!new_pool)
	return NULL;

	ctx->code->bstr_pool = new_pool;
	ctx->code->bstr_pool_size *= 2;
	}

	ctx->code->bstr_pool[ctx->code->bstr_cnt] = SysAllocString(str);
	if(!ctx->code->bstr_pool[ctx->code->bstr_cnt])
	return NULL;

	return ctx->code->bstr_pool[ctx->code->bstr_cnt++];
	}

	static HRESULT push_instr_bstr(compile_ctx_t ctx, vbsop_t op, const WCHAR arg)
	{
	unsigned instr;
	BSTR bstr;

	bstr = alloc_bstr_arg(ctx, arg);
	if(!bstr)
	return E_OUTOFMEMORY;

	instr = push_instr(ctx, op);
	if(instr == -1)
	return E_OUTOFMEMORY;

	instr_ptr(ctx, instr)->arg1.bstr = bstr;
	return S_OK;
	}

	static HRESULT push_instr_bstr_uint(compile_ctx_t ctx, vbsop_t op, const WCHAR arg1, unsigned arg2)
	{
	unsigned instr;
	BSTR bstr;

	bstr = alloc_bstr_arg(ctx, arg1);
	if(!bstr)
	return E_OUTOFMEMORY;

	instr = push_instr(ctx, op);
	if(instr == -1)
	return E_OUTOFMEMORY;

	instr_ptr(ctx, instr)->arg1.bstr = bstr;
	instr_ptr(ctx, instr)->arg2.uint = arg2;
	return S_OK;
	}

	static HRESULT compile_args(compile_ctx_t ctx, expression_t args, unsigned *ret)
	{
	unsigned arg_cnt = 0;
	HRESULT hres;

	while(args) {
	hres = compile_expression(ctx, args);
	if(FAILED(hres))
	return hres;

	arg_cnt++;
	args = args->next;
	}

	*ret = arg_cnt;
	return S_OK;
	}

	static HRESULT compile_member_expression(compile_ctx_t ctx, member_expression_t expr, BOOL ret_val)
	{
	unsigned arg_cnt = 0;
	HRESULT hres;

	hres = compile_args(ctx, expr->args, &arg_cnt);
	if(FAILED(hres))
	return hres;

	if(expr->obj_expr) {
	FIXME("obj_expr not implemented\n");
	hres = E_NOTIMPL;
	}else {
	hres = push_instr_bstr_uint(ctx, ret_val ? OP_icall : OP_icallv, expr->identifier, arg_cnt);
	}

	return hres;
	}

	static HRESULT compile_unary_expression(compile_ctx_t ctx, unary_expression_t expr, vbsop_t op)
	{
	HRESULT hres;

	hres = compile_expression(ctx, expr->subexpr);
	if(FAILED(hres))
	return hres;

	return push_instr(ctx, op) == -1 ? E_OUTOFMEMORY : S_OK;
	}

	static HRESULT compile_binary_expression(compile_ctx_t ctx, binary_expression_t expr, vbsop_t op)
	{
	HRESULT hres;

	hres = compile_expression(ctx, expr->left);
	if(FAILED(hres))
	return hres;

	hres = compile_expression(ctx, expr->right);
	if(FAILED(hres))
	return hres;

	return push_instr(ctx, op) == -1 ? E_OUTOFMEMORY : S_OK;
	}

	static HRESULT compile_expression(compile_ctx_t ctx, expression_t expr)
	{
	switch(expr->type) {
	case EXPR_ADD:
	return compile_binary_expression(ctx, (binary_expression_t*)expr, OP_add);
	case EXPR_BOOL:
	return push_instr_int(ctx, OP_bool, ((bool_expression_t*)expr)->value);
	case EXPR_CONCAT:
	return compile_binary_expression(ctx, (binary_expression_t*)expr, OP_concat);
	case EXPR_DOUBLE:
	return push_instr_double(ctx, OP_double, ((double_expression_t*)expr)->value);
	case EXPR_EMPTY:
	return push_instr(ctx, OP_empty) != -1 ? S_OK : E_OUTOFMEMORY;
	case EXPR_EQUAL:
	return compile_binary_expression(ctx, (binary_expression_t*)expr, OP_equal);
	case EXPR_MEMBER:
	return compile_member_expression(ctx, (member_expression_t*)expr, TRUE);
	case EXPR_NEG:
	return compile_unary_expression(ctx, (unary_expression_t*)expr, OP_neg);
	case EXPR_NEQUAL:
	return compile_binary_expression(ctx, (binary_expression_t*)expr, OP_nequal);
	case EXPR_NOT:
	return compile_unary_expression(ctx, (unary_expression_t*)expr, OP_not);
	case EXPR_NULL:
	return push_instr(ctx, OP_null) != -1 ? S_OK : E_OUTOFMEMORY;
	case EXPR_STRING:
	return push_instr_str(ctx, OP_string, ((string_expression_t*)expr)->value);
	case EXPR_SUB:
	return compile_binary_expression(ctx, (binary_expression_t*)expr, OP_sub);
	case EXPR_USHORT:
	return push_instr_int(ctx, OP_short, ((int_expression_t*)expr)->value);
	case EXPR_ULONG:
	return push_instr_int(ctx, OP_long, ((int_expression_t*)expr)->value);
	default:
	FIXME("Unimplemented expression type %d\n", expr->type);
	return E_NOTIMPL;
	}

	return S_OK;
	}

	static HRESULT compile_assign_statement(compile_ctx_t ctx, assign_statement_t stat)
	{
	HRESULT hres;

	hres = compile_expression(ctx, stat->value_expr);
	if(FAILED(hres))
	return hres;

	if(stat->member_expr->args) {
	FIXME("arguments support not implemented\n");
	return E_NOTIMPL;
	}

	if(stat->member_expr->obj_expr) {
	FIXME("obj_expr not implemented\n");
	hres = E_NOTIMPL;
	}else {
	hres = push_instr_bstr(ctx, OP_assign_ident, stat->member_expr->identifier);
	}

	return hres;
	}

	static HRESULT compile_statement(compile_ctx_t ctx, statement_t stat)
	{
	HRESULT hres;

	while(stat) {
	switch(stat->type) {
	case STAT_ASSIGN:
	hres = compile_assign_statement(ctx, (assign_statement_t*)stat);
	break;
	case STAT_CALL:
	hres = compile_member_expression(ctx, ((call_statement_t*)stat)->expr, FALSE);
	break;
	default:
	FIXME("Unimplemented statement type %d\n", stat->type);
	hres = E_NOTIMPL;
	}

	if(FAILED(hres))
	return hres;
	stat = stat->next;
	}

	return S_OK;
	}

	static HRESULT compile_func(compile_ctx_t ctx, statement_t stat, function_t *func)
	{
	HRESULT hres;

	func->code_off = ctx->instr_cnt;

	hres = compile_statement(ctx, stat);
	if(FAILED(hres))
	return hres;

	if(push_instr(ctx, OP_ret) == -1)
	return E_OUTOFMEMORY;

	return S_OK;
	}

	void release_vbscode(vbscode_t *code)
	{
	unsigned i;

	list_remove(&code->entry);

	for(i=0; i < code->bstr_cnt; i++)
	SysFreeString(code->bstr_pool[i]);

	vbsheap_free(&code->heap);

	heap_free(code->bstr_pool);
	heap_free(code->source);
	heap_free(code->instrs);
	heap_free(code);
	}

	static vbscode_t alloc_vbscode(compile_ctx_t ctx, const WCHAR *source)
	{
	vbscode_t *ret;

	ret = heap_alloc(sizeof(*ret));
	if(!ret)
	return NULL;

	ret->source = heap_strdupW(source);
	if(!ret->source) {
	heap_free(ret);
	return NULL;
	}

	ret->instrs = heap_alloc(32*sizeof(instr_t));
	if(!ret->instrs) {
	release_vbscode(ret);
	return NULL;
	}

	ctx->instr_cnt = 0;
	ctx->instr_size = 32;
	vbsheap_init(&ret->heap);

	ret->option_explicit = ctx->parser.option_explicit;

	ret->bstr_pool = NULL;
	ret->bstr_pool_size = 0;
	ret->bstr_cnt = 0;

	ret->global_code.code_ctx = ret;

	list_init(&ret->entry);
	return ret;
	}

	HRESULT compile_script(script_ctx_t script, const WCHAR src, vbscode_t **ret)
	{
	compile_ctx_t ctx;
	HRESULT hres;

	hres = parse_script(&ctx.parser, src);
	if(FAILED(hres))
	return hres;

	ctx.code = alloc_vbscode(&ctx, src);
	if(!ctx.code)
	return E_OUTOFMEMORY;

	hres = compile_func(&ctx, ctx.parser.stats, &ctx.code->global_code);
	if(FAILED(hres)) {
	release_vbscode(ctx.code);
	return hres;
	}

	list_add_tail(&script->code_list, &ctx.code->entry);
	*ret = ctx.code;
	return S_OK;
	}