/* * IDL Compiler * * Copyright 2002 Ove Kaaven * * 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "config.h" #include #include #ifdef HAVE_UNISTD_H # include #endif #include #include #include #include #include "widl.h" #include "utils.h" #include "parser.h" #include "header.h" #include "proxy.h" static int indentation = 0; static void indent(int delta) { int c; if (delta < 0) indentation += delta; for (c=0; c 0) indentation += delta; } int is_void(type_t *t, var_t *v) { if (v && v->ptr_level) return 0; if (!t->type && !t->ref) return 1; return 0; } static void write_pident(FILE *h, var_t *v) { int c; for (c=0; cptr_level; c++) { fprintf(h, "*"); } if (v->name) fprintf(h, "%s", v->name); } void write_name(FILE *h, var_t *v) { fprintf(h, "%s", v->name); } char* get_name(var_t *v) { return v->name; } static void write_array(FILE *h, expr_t *v) { if (!v) return; while (NEXT_LINK(v)) v = NEXT_LINK(v); fprintf(h, "["); while (v) { if (v->is_const) fprintf(h, "%ld", v->cval); /* statically sized array */ else fprintf(h, "1"); /* dynamically sized array */ if (PREV_LINK(v)) fprintf(h, ", "); v = PREV_LINK(v); } fprintf(h, "]"); } static void write_field(FILE *h, var_t *v) { if (!v) return; if (v->type) { indent(0); write_type(h, v->type, NULL, v->tname); if (get_name(v)) { fprintf(h, " "); write_pident(h, v); } else { /* not all C/C++ compilers support anonymous structs and unions */ switch (v->type->type) { case RPC_FC_STRUCT: case RPC_FC_ENCAPSULATED_UNION: fprintf(h, " DUMMYSTRUCTNAME"); break; case RPC_FC_NON_ENCAPSULATED_UNION: fprintf(h, " DUMMYUNIONNAME"); break; default: /* ? */ break; } } write_array(h, v->array); fprintf(h, ";\n"); } } static void write_fields(FILE *h, var_t *v) { var_t *first = v; if (!v) return; while (NEXT_LINK(v)) v = NEXT_LINK(v); while (v) { write_field(h, v); if (v == first) break; v = PREV_LINK(v); } } static void write_enums(FILE *h, var_t *v) { if (!v) return; while (NEXT_LINK(v)) v = NEXT_LINK(v); while (v) { if (get_name(v)) { indent(0); write_name(h, v); if (v->eval) { fprintf(h, " = "); write_expr(h, v->eval); } } if (PREV_LINK(v)) fprintf(h, ",\n"); v = PREV_LINK(v); } fprintf(h, "\n"); } void write_type(FILE *h, type_t *t, var_t *v, char *n) { int c; if (n) fprintf(h, "%s", n); else { if (t->is_const) fprintf(h, "const "); if (t->type) { if (t->sign > 0) fprintf(h, "signed "); else if (t->sign < 0) fprintf(h, "unsigned "); switch (t->type) { case RPC_FC_BYTE: if (t->ref) fprintf(h, t->ref->name); else fprintf(h, "byte"); break; case RPC_FC_CHAR: if (t->ref) fprintf(h, t->ref->name); else fprintf(h, "char"); break; case RPC_FC_WCHAR: fprintf(h, "wchar_t"); break; case RPC_FC_USHORT: case RPC_FC_SHORT: if (t->ref) fprintf(h, t->ref->name); else fprintf(h, "short"); break; case RPC_FC_ULONG: case RPC_FC_LONG: if (t->ref) fprintf(h, t->ref->name); else fprintf(h, "long"); break; case RPC_FC_HYPER: if (t->ref) fprintf(h, t->ref->name); else fprintf(h, "hyper"); break; case RPC_FC_FLOAT: fprintf(h, "float"); break; case RPC_FC_DOUBLE: fprintf(h, "double"); break; case RPC_FC_ENUM16: case RPC_FC_ENUM32: if (t->defined && !t->written) { if (t->name) fprintf(h, "enum %s {\n", t->name); else fprintf(h, "enum {\n"); t->written = TRUE; indentation++; write_enums(h, t->fields); indent(-1); fprintf(h, "}"); } else fprintf(h, "enum %s", t->name); break; case RPC_FC_ERROR_STATUS_T: if (t->ref) fprintf(h, t->ref->name); else fprintf(h, "error_status_t"); break; case RPC_FC_BIND_PRIMITIVE: if (t->ref) fprintf(h, t->ref->name); else fprintf(h, "handle_t"); break; case RPC_FC_STRUCT: case RPC_FC_ENCAPSULATED_UNION: if (t->defined && !t->written) { if (t->name) fprintf(h, "struct %s {\n", t->name); else fprintf(h, "struct {\n"); t->written = TRUE; indentation++; write_fields(h, t->fields); indent(-1); fprintf(h, "}"); } else fprintf(h, "struct %s", t->name); break; case RPC_FC_NON_ENCAPSULATED_UNION: if (t->defined && !t->written) { if (t->name) fprintf(h, "union %s {\n", t->name); else fprintf(h, "union {\n"); t->written = TRUE; indentation++; write_fields(h, t->fields); indent(-1); fprintf(h, "}"); } else fprintf(h, "union %s", t->name); break; default: fprintf(h, "(unknown-type:%d)", t->type); } } else { if (t->ref) { write_type(h, t->ref, NULL, t->name); } else fprintf(h, "void"); } } if (v) { for (c=0; cptr_level; c++) { fprintf(h, "*"); } } } void write_typedef(type_t *type, var_t *names) { char *tname = names->tname; while (NEXT_LINK(names)) names = NEXT_LINK(names); fprintf(header, "typedef "); write_type(header, type, NULL, tname); fprintf(header, " "); while (names) { write_pident(header, names); if (PREV_LINK(names)) fprintf(header, ", "); names = PREV_LINK(names); } fprintf(header, ";\n\n"); } static void do_write_expr(FILE *h, expr_t *e, int p) { switch (e->type) { case EXPR_VOID: break; case EXPR_NUM: fprintf(h, "%ld", e->u.lval); break; case EXPR_HEXNUM: fprintf(h, "0x%lx", e->u.lval); break; case EXPR_IDENTIFIER: fprintf(h, "%s", e->u.sval); break; case EXPR_NEG: fprintf(h, "-"); do_write_expr(h, e->ref, 1); break; case EXPR_NOT: fprintf(h, "~"); do_write_expr(h, e->ref, 1); break; case EXPR_PPTR: fprintf(h, "*"); do_write_expr(h, e->ref, 1); break; case EXPR_CAST: fprintf(h, "("); write_type(h, e->u.tref->ref, NULL, e->u.tref->name); fprintf(h, ")"); do_write_expr(h, e->ref, 1); break; case EXPR_SIZEOF: fprintf(h, "sizeof("); write_type(h, e->u.tref->ref, NULL, e->u.tref->name); fprintf(h, ")"); break; case EXPR_SHL: case EXPR_SHR: case EXPR_MUL: case EXPR_DIV: case EXPR_ADD: case EXPR_SUB: case EXPR_AND: case EXPR_OR: if (p) fprintf(h, "("); do_write_expr(h, e->ref, 1); switch (e->type) { case EXPR_SHL: fprintf(h, " << "); break; case EXPR_SHR: fprintf(h, " >> "); break; case EXPR_MUL: fprintf(h, " * "); break; case EXPR_DIV: fprintf(h, " / "); break; case EXPR_ADD: fprintf(h, " + "); break; case EXPR_SUB: fprintf(h, " - "); break; case EXPR_AND: fprintf(h, " & "); break; case EXPR_OR: fprintf(h, " | "); break; default: break; } do_write_expr(h, e->u.ext, 1); if (p) fprintf(h, ")"); break; } } void write_expr(FILE *h, expr_t *e) { do_write_expr(h, e, 0); } void write_constdef(var_t *v) { fprintf(header, "#define %s (", get_name(v)); write_expr(header, v->eval); fprintf(header, ")\n\n"); } void write_externdef(var_t *v) { fprintf(header, "extern const "); write_type(header, v->type, NULL, v->tname); if (get_name(v)) { fprintf(header, " "); write_pident(header, v); } fprintf(header, ";\n\n"); } /********** INTERFACES **********/ int is_attr(attr_t *a, enum attr_type t) { while (a) { if (a->type == t) return 1; a = NEXT_LINK(a); } return 0; } void *get_attrp(attr_t *a, enum attr_type t) { while (a) { if (a->type == t) return a->u.pval; a = NEXT_LINK(a); } return NULL; } DWORD get_attrv(attr_t *a, enum attr_type t) { while (a) { if (a->type == t) return a->u.ival; a = NEXT_LINK(a); } return 0; } int is_object(attr_t *a) { return is_attr(a, ATTR_OBJECT); } int is_local(attr_t *a) { return is_attr(a, ATTR_LOCAL); } var_t *is_callas(attr_t *a) { return get_attrp(a, ATTR_CALLAS); } static void write_method_def(type_t *iface) { func_t *cur = iface->funcs; while (NEXT_LINK(cur)) cur = NEXT_LINK(cur); fprintf(header, "#define %s_METHODS", iface->name); while (cur) { var_t *def = cur->def; if (!is_callas(def->attrs)) { var_t *arg = cur->args; int argc = 0; if (arg) { argc++; while (NEXT_LINK(arg)) { arg = NEXT_LINK(arg); argc++; } } fprintf(header, " \\\n"); if (!is_void(def->type, def)) { if (argc) fprintf(header, " ICOM_METHOD%d (", argc); else fprintf(header, " ICOM_METHOD ("); write_type(header, def->type, def, def->tname); fprintf(header, ","); } else if (argc) fprintf(header, " ICOM_VMETHOD%d(", argc); else fprintf(header, " ICOM_VMETHOD ("); write_name(header, def); while (arg) { fprintf(header, ","); write_type(header, arg->type, arg, arg->tname); fprintf(header, ","); write_name(header,arg); arg = PREV_LINK(arg); } fprintf(header, ")"); } cur = PREV_LINK(cur); } fprintf(header, "\n"); } static int write_method_macro(type_t *iface, char *name) { int idx; func_t *cur = iface->funcs; while (NEXT_LINK(cur)) cur = NEXT_LINK(cur); if (iface->ref) idx = write_method_macro(iface->ref, name); else idx = 0; fprintf(header, "/*** %s methods ***/\n", iface->name); while (cur) { var_t *def = cur->def; if (!is_callas(def->attrs)) { var_t *arg = cur->args; int argc = 0; int c; while (arg) { arg = NEXT_LINK(arg); argc++; } fprintf(header, "#define %s_", name); write_name(header,def); fprintf(header, "(p"); for (c=0; cidx == -1) cur->idx = idx; else if (cur->idx != idx) yyerror("BUG: method index mismatch in write_method_macro"); idx++; } cur = PREV_LINK(cur); } return idx; } void write_args(FILE *h, var_t *arg, char *name, int method) { int count = 0; if (arg) { while (NEXT_LINK(arg)) arg = NEXT_LINK(arg); } if (method) { fprintf(h, " %s* This", name); count++; } else fprintf(h, " "); while (arg) { if (count) fprintf(h, ",\n "); write_type(h, arg->type, arg, arg->tname); fprintf(h, " "); write_name(h,arg); arg = PREV_LINK(arg); count++; } } static void write_method_proto(type_t *iface) { func_t *cur = iface->funcs; while (NEXT_LINK(cur)) cur = NEXT_LINK(cur); while (cur) { var_t *def = cur->def; var_t *cas = is_callas(def->attrs); if (!is_local(def->attrs)) { /* proxy prototype */ write_type(header, def->type, def, def->tname); fprintf(header, " CALLBACK %s_", iface->name); write_name(header, def); fprintf(header, "_Proxy(\n"); write_args(header, cur->args, iface->name, 1); fprintf(header, ");\n"); /* stub prototype */ fprintf(header, "void __RPC_STUB %s_", iface->name); write_name(header,def); fprintf(header, "_Stub(\n"); fprintf(header, " struct IRpcStubBuffer* This,\n"); fprintf(header, " struct IRpcChannelBuffer* pRpcChannelBuffer,\n"); fprintf(header, " PRPC_MESSAGE pRpcMessage,\n"); fprintf(header, " DWORD* pdwStubPhase);\n"); } if (cas) { func_t *m = iface->funcs; while (m && strcmp(get_name(m->def), cas->name)) m = NEXT_LINK(m); if (m) { var_t *mdef = m->def; /* proxy prototype - use local prototype */ write_type(header, mdef->type, mdef, mdef->tname); fprintf(header, " CALLBACK %s_", iface->name); write_name(header, mdef); fprintf(header, "_Proxy(\n"); write_args(header, m->args, iface->name, 1); fprintf(header, ");\n"); /* stub prototype - use remotable prototype */ write_type(header, def->type, def, def->tname); fprintf(header, " __RPC_STUB %s_", iface->name); write_name(header, mdef); fprintf(header, "_Stub(\n"); write_args(header, cur->args, iface->name, 1); fprintf(header, ");\n"); } else { yywarning("invalid call_as attribute (%s -> %s)\n", get_name(def), cas->name); } } cur = PREV_LINK(cur); } } static void write_function_proto(type_t *iface) { func_t *cur = iface->funcs; while (NEXT_LINK(cur)) cur = NEXT_LINK(cur); while (cur) { var_t *def = cur->def; /* FIXME: do we need to handle call_as? */ write_type(header, def->type, def, def->tname); fprintf(header, " "); write_name(header, def); fprintf(header, "(\n"); write_args(header, cur->args, iface->name, 0); fprintf(header, ");\n"); cur = PREV_LINK(cur); } } void write_forward(type_t *iface) { /* C/C++ forwards should only be written for object interfaces, so if we * have a full definition we only write one if we find [object] among the * attributes - however, if we don't have a full definition at this point * (i.e. this is an IDL forward), then we also assume that it is an object * interface, since non-object interfaces shouldn't need forwards */ if ((!iface->defined || is_object(iface->attrs)) && !iface->written) { fprintf(header, "typedef struct %s %s;\n", iface->name, iface->name); iface->written = TRUE; } } void write_guid(type_t *iface) { UUID *uuid = get_attrp(iface->attrs, ATTR_UUID); if (!uuid) return; fprintf(header, "DEFINE_GUID(IID_%s, 0x%08lx, 0x%04x, 0x%04x, 0x%02x,0x%02x, 0x%02x,0x%02x,0x%02x,0x%02x,0x%02x,0x%02x);\n", iface->name, uuid->Data1, uuid->Data2, uuid->Data3, uuid->Data4[0], uuid->Data4[1], uuid->Data4[2], uuid->Data4[3], uuid->Data4[4], uuid->Data4[5], uuid->Data4[6], uuid->Data4[7]); } void write_com_interface(type_t *iface) { if (!iface->funcs) { yywarning("%s has no methods", iface->name); return; } fprintf(header, "/*****************************************************************************\n"); fprintf(header, " * %s interface\n", iface->name); fprintf(header, " */\n"); write_guid(iface); write_forward(iface); fprintf(header, "#define ICOM_INTERFACE %s\n", iface->name); write_method_def(iface); fprintf(header, "#define %s_IMETHODS \\\n", iface->name); if (iface->ref) fprintf(header, " %s_IMETHODS \\\n", iface->ref->name); fprintf(header, " %s_METHODS\n", iface->name); if (iface->ref) fprintf(header, "ICOM_DEFINE(%s,%s)\n", iface->name, iface->ref->name); else fprintf(header, "ICOM_DEFINE1(%s)\n", iface->name); fprintf(header, "#undef ICOM_INTERFACE\n"); fprintf(header, "\n"); write_method_macro(iface, iface->name); fprintf(header, "\n"); write_method_proto(iface); fprintf(header, "\n"); if (!is_local(iface->attrs)) write_proxy(iface); } void write_rpc_interface(type_t *iface) { DWORD ver = get_attrv(iface->attrs, ATTR_VERSION); if (!iface->funcs) return; fprintf(header, "/*****************************************************************************\n"); fprintf(header, " * %s interface (v%d.%d)\n", iface->name, LOWORD(ver), HIWORD(ver)); fprintf(header, " */\n"); write_guid(iface); fprintf(header, "extern RPC_IF_HANDLE %s_v%d_%d_c_ifspec;\n", iface->name, LOWORD(ver), HIWORD(ver)); fprintf(header, "extern RPC_IF_HANDLE %s_v%d_%d_s_ifspec;\n", iface->name, LOWORD(ver), HIWORD(ver)); write_function_proto(iface); fprintf(header, "\n"); /* FIXME: server/client code */ } void write_interface(type_t *iface) { if (is_object(iface->attrs)) write_com_interface(iface); else write_rpc_interface(iface); }