コード例 #1
0
ファイル: generate.c プロジェクト: NASAHackTO/mesh 
void generate_entry( FILE *file, struct function *f, char *entry )
{
	fprintf(file,"extern \"C\" %s %s( %s )\n{\n",type_string(f->type),entry,param_string(f->params));

	fprintf(file,"\t%s (*fptr)(%s);\n",type_string(f->type),param_string(f->params));
	if(!is_void(f->type)) {
		fprintf(file,"\t%s result;\n",type_string(f->type));
	}
	write_vararg_decls( file, f->params );

	fprintf(file,"\tbypass_layer_init();\n");
    // PZK 8/7/07: changed int to intptr_t for 64-bit compatibility
	fprintf(file,"\tfptr = (%s(*)(%s)) layer_lookup( \"bypass_agent_action_%s\", \"%s\", (intptr_t) %s );\n",type_string(f->type),param_string(f->params),f->name->text,entry,entry);
	fprintf(file,"\tif(!fptr) fptr = %s;\n",entry);
	fprintf(file,"\tlayer_descend();\n");
	if(!is_void(f->type)) {
		fprintf(file,"\tresult = ");
	} else {
		fprintf(file,"\t");
	}
	fprintf(file,"(*fptr) ( %s );\n",arg_string(f->params));
	fprintf(file,"\tlayer_ascend();\n");
	if(!is_void(f->type)) {
		fprintf(file,"\treturn result;\n");
	}

	/* special case: a switch for _exit() or exit() must fall back on a fatal message */
	if(!strcmp(f->name->text,"exit") || !strcmp(f->name->text,"_exit") ) {
		fprintf(file,"\tbypass_fatal(\"exit() returned without exiting!\");\n");
	}
	fprintf(file,"}\n\n");
}
コード例 #2
0
ファイル: util.c プロジェクト: ZJUcompiler/PascalCompiler 
void printTreeNode(TreeNode* treeNode){
	char *name = getNodeKindString(treeNode->nodekind);
	int isTerm = isTerminal(treeNode->nodekind);
	if (isTerm)
		printf("<%s>[%s]{%d}(%s)\n", name, treeNode->tokenString, treeNode->lineno, type_string(treeNode->type));
	else
		printf("%s(%s)\n", name,type_string(treeNode->type));
}
コード例 #3
0
ファイル: single_star_io.C プロジェクト: Ingwar/amuse 
ostream& single_star::print_star_story(ostream& s,
				       int short_output)  // default = 0
{
    put_story_header(s, STAR_ID);

    if (short_output) {

	// If we were to handle short output in the Star part of
	// the output stream, this is where it should be done.
	// However, for now it is simpler to handle all stellar
	// quantities in the Dyn output (in hdyn_io).

#if 0
	put_string(s,      "  S  =  ", type_short_string(get_element_type()));
	put_real_number(s, "  T  =  ", temperature());
	put_real_number(s, "  L  =  ", get_luminosity());
#endif

    } else {

	put_string(s,      "  Type   =  ", type_string(get_element_type()));
	if (get_spec_type(Accreting)==Accreting)
	    put_string(s,  "  Class   =  ",
		       type_string(get_spec_type(Accreting)));
	put_real_number(s, "  T_cur  =  ", get_current_time());
	if (get_current_time()!=get_relative_age())
	    put_real_number(s, "  T_rel  =  ", get_relative_age());
	put_real_number(s, "  M_rel  =  ", get_relative_mass());
	put_real_number(s, "  M_env  =  ", get_envelope_mass());
	put_real_number(s, "  M_core =  ", get_core_mass());
	put_real_number(s, "  T_eff  =  ", temperature());
	put_real_number(s, "  L_eff  =  ", get_luminosity());

	// Extra output for stars with CO cores
	if (star_with_COcore()) {
	    put_real_number(s, "  M_COcore  =  ", get_COcore_mass());
	}

	// Extra output for radio- and X-ray pulsars.
	if (get_element_type()==Xray_Pulsar ||
	    get_element_type()==Radio_Pulsar ||
	    get_element_type()==Neutron_Star) {
	    put_real_number(s, "  P_rot  =  ", get_rotation_period());
	    put_real_number(s, "  B_fld  =  ", get_magnetic_field());
	}

	if (star_story)
	    put_story_contents(s, *star_story);
    }

    put_story_footer(s, STAR_ID);

    return s;
}
コード例 #4
0
ファイル: single_star_io.C プロジェクト: Ingwar/amuse 
void single_star::first_roche_lobe_contact_story(stellar_type accretor)
{
    char info_line[MAX_STORY_LINE_LENGTH];
    real time = get_current_time();
     
    sprintf(info_line,
	    "%s_%s_%s_RLOF_to_%s_at_time = %6.2f",
	    type_string(get_element_type()),
	    type_string(get_spectral_class(temperature())),
	    type_string(get_luminosity_class(temperature(), luminosity)),
	    type_string(accretor), time);

    add_story_line(get_node()->get_log_story(), info_line);

}
コード例 #5
0
ファイル: fds.c プロジェクト: TrapSquad/realistichat 
void report_fds(aClient *cptr)
{
   int i;
   char *name, *blocking;

   for(i = 0; i < MAXCONNECTIONS; i++)
   {
      if(fd_list[i].type == FDT_NONE)
         continue;

      if(fd_list[i].type == FDT_CLIENT ||
         fd_list[i].type == FDT_AUTH)
      {
         aClient *cptr = (aClient *) fd_list[i].value;
         int hide = (IsConnecting(cptr) || IsHandshake(cptr) || IsServer(cptr)) ? HIDEME : 0;

         name = get_client_name(cptr, hide);
         blocking = (cptr->flags & FLAGS_BLOCKED) ?
                    "BLOCKED" : "_";
      }
      else
      {
         name = "-";
         blocking = "-";
      }

    sendto_one(&me, cptr, ":%s %d %s :%d - %s [%s] %s %s",
                 me.name, RPL_STATSDEBUG, cptr->name,
                 i, type_string(fd_list[i].type),
                 flags_string(fd_list[i].flags),
                 name, blocking);

   }
}
コード例 #6
0
ファイル: net.c プロジェクト: Wurldtech/libnet 
/*-
-- net:dump()

Write summary of protocol blocks to stdout.
*/
static int lnet_dump(lua_State* L)
{
    libnet_t* ud = checkudata(L);
    libnet_pblock_t* p = ud->protocol_blocks;
    int strings = 0;

    while(p) {
        /* h_len is header length for checksumming? "chksum length"? */
        char str[1024];
        sprintf(str, "tag %d flags %d type %s/%#x buf %p b_len %2u h_len %2u copied %u prev %d next %d\n",
                p->ptag, p->flags, type_string(p->type), p->type,
                p->buf, p->b_len, p->h_len, p->copied,
                p->prev ? p->prev->ptag : -1,
                p->next ? p->next->ptag : -1
                );
        lua_pushstring(L, str);
        p = p->next;
        strings++;
    }
    lua_pushfstring(L, "link_offset %d aligner %d total_size %d nblocks %d\n",
            ud->link_offset, ud->aligner, ud->total_size, ud->n_pblocks);
    strings++;

    lua_concat(L, strings);

    return 1;
}
コード例 #7
0
void SuperFamicomCartridge::write_hash(netnode & node) const
{
  node.hashset("rom_size", rom_size);
  node.hashset("ram_size", ram_size);
  node.hashset("firmware_appended", firmware_appended ? 1 : 0);

  node.hashset("header_offset", header_offset);

  node.hashset("type", type_string());
  node.hashset("region", region_string());
  node.hashset("mapper", mapper_string());
  node.hashset("dsp1_mapper", dsp1_mapper_string());

  node.hashset("has_bsx_slot", has_bsx_slot ? 1 : 0);
  node.hashset("has_superfx", has_superfx ? 1 : 0);
  node.hashset("has_sa1", has_sa1 ? 1 : 0);
  node.hashset("has_sharprtc", has_sharprtc ? 1 : 0);
  node.hashset("has_epsonrtc", has_epsonrtc ? 1 : 0);
  node.hashset("has_sdd1", has_sdd1 ? 1 : 0);
  node.hashset("has_spc7110", has_spc7110 ? 1 : 0);
  node.hashset("has_cx4", has_cx4 ? 1 : 0);
  node.hashset("has_dsp1", has_dsp1 ? 1 : 0);
  node.hashset("has_dsp2", has_dsp2 ? 1 : 0);
  node.hashset("has_dsp3", has_dsp3 ? 1 : 0);
  node.hashset("has_dsp4", has_dsp4 ? 1 : 0);
  node.hashset("has_obc1", has_obc1 ? 1 : 0);
  node.hashset("has_st010", has_st010 ? 1 : 0);
  node.hashset("has_st011", has_st011 ? 1 : 0);
  node.hashset("has_st018", has_st018 ? 1 : 0);
}
コード例 #8
0
ファイル: net.c プロジェクト: jwilkins/libnet 
static int lnet_dump(lua_State* L)
{
    libnet_t** ud = luaL_checkudata(L, 1, L_NET_REGID);
    luaL_argcheck(L, *ud, 1, "net has been destroyed");

    libnet_pblock_t* p = (*ud)->protocol_blocks;
    int strings = 0;

    while(p) {
        /* h_len is header length for checksumming? "chksum length"? */
        char str[1024];
        sprintf(str, "tag %d flags %d type %s/%#x buf %p b_len %2u h_len %2u ip_offset %2u, copied %u\n",
                p->ptag, p->flags, type_string(p->type), p->type,
                p->buf, p->b_len, p->h_len, p->ip_offset, p->copied);
        lua_pushstring(L, str);
        p = p->next;
        strings++;
    }
    lua_pushfstring(L, "link_offset %d aligner %d total_size %d nblocks %d\n",
            (*ud)->link_offset, (*ud)->aligner, (*ud)->total_size, (*ud)->n_pblocks);
    strings++;

    lua_concat(L, strings);

    return 1;
}
コード例 #9
0
ファイル: js_types.hpp プロジェクト: tomByrer/realm-js 
 TypeErrorException(NativeAccessor& accessor, StringData object_type,
                    Property const& prop, ValueType value)
 : std::invalid_argument(util::format("%1.%2 must be of type '%3', got '%4' (%5)",
                                      object_type, prop.name, type_string(prop),
                                      accessor.typeof(value),
                                      accessor.print(value)))
 {}
コード例 #10
0
ファイル: hyper_giant.C プロジェクト: Ingwar/amuse 
real hyper_giant::add_mass_to_accretor(const real mdot) {

        if (mdot<0) {
           cerr << "hyper_giant::add_mass_to_accretor(mdot="
                 << mdot << ")"<<endl;
           cerr << "mdot (" << mdot << ") smaller than zero!" << endl;

	   return 0;
        }

        adjust_accretor_age(mdot);
        if (relative_mass<get_total_mass() + mdot)
           relative_mass = get_total_mass() + mdot;
        envelope_mass += mdot;

	// Wind mass loss for massive stars (SPZ:July 1998)
	if (relative_mass >= cnsts.parameters(massive_star_mass_limit)) {

	  cerr << type_string(get_element_type())
	       << " wind treatment for stars with M >="
	       << cnsts.parameters(massive_star_mass_limit)
	       << " for " << identity << endl
	       << "   M = " << get_total_mass() << " [Msun] "
	       << "   Mdot = " << wind_constant
	       << " [Msun/Myr] "
	       << endl;

	}

	set_spec_type(Accreting);
	
	return mdot;

}
コード例 #11
0
ファイル: stringtools.c プロジェクト: NASAHackTO/mesh 
char * ftype_string( struct function *f )
{
	char *buffer = malloc(STRING_BUFFER_SIZE*10);

	sprintf(buffer,"%s (*)(%s)",
		type_string(f->type),
		param_string(f->params));

	return buffer;
}
コード例 #12
0
ファイル: options.C プロジェクト: juddy/edcde 
void Dbck_options::
print(FILE *f) const
{
	fprintf(f,"%s <\n",type_string());
	fprintf(f,"\nDirectories:\n");
	dbdirectories()->print(_tt_string_print,f);
	fprintf(f,"\n");
			
	if (_sel_filename_p) {
		fprintf(f,catgets(_ttcatd, 6, 7, "Select by filename: %s\n"),
			(char *)_sel_filename);
	}
	if (_sel_objid_p) {
		fprintf(f, "%s", catgets(_ttcatd, 6, 8, "Select by objid key:"));
		_sel_objid_key->print(f);
		fprintf(f,"\n");
	}
	if (_sel_type_p) {
		fprintf(f,catgets(_ttcatd, 6, 9, "Select by type: %s\n"),
			(char *)_sel_type);
	}
	if (_diag_badform_p) {
		fprintf(f, "%s", catgets(_ttcatd, 6, 10,
				  "Diagnose badly formed entities\n"));
	}
	if (_diag_exist_p) {
		fprintf(f, "%s", catgets(_ttcatd, 6, 11, "Diagnose references to "
				  "non-existent entities\n"));
	}
	if (_disp_id_p) {
		fprintf(f, "%s", catgets(_ttcatd, 6, 12, "Display ids\n"));
	}
	if (_disp_mand_p) {
		fprintf(f, "%s", catgets(_ttcatd, 6, 13, "Display mandatory data\n"));
	}
	if (_disp_prop_p) {
		fprintf(f, "%s", catgets(_ttcatd, 6, 14,
				  "Display properties and values data\n"));
	}
	if (_repair_netisam_p) {
		fprintf(f, "%s", catgets(_ttcatd, 6, 15,
				  "Invoke NetISAM isrepair() function before "
				  "inspecting\n"));
	}
	if (_repair_type_p) {
		fprintf(f,catgets(_ttcatd, 6, 16,
				  "Repair by setting to type: %s\n"),
			(char *)_repair_type);
	}	
	if (_repair_delete_p) {
		fprintf(f, "%s", catgets(_ttcatd, 6, 17, "Repair by deleting\n"));
	}
	fprintf(f,catgets(_ttcatd, 6, 18, "Debugging printout level %d\n"),
		_debug_level);
}
コード例 #13
0
ファイル: generate.c プロジェクト: NASAHackTO/mesh 
void write_static_call( FILE *file, struct function *f )
{
	fprintf(file,"\t\t\textern %s %s (%s);\n",type_string(f->type),upper_string(pattern_complete(f->options->local_name->text,f->name->text)),param_string(f->params));

	if(!is_void(f->type)) {
		fprintf(file,"\t\t\tresult = ");
	} else {
		fprintf(file,"\t\t\t");
	}
	fprintf(file,"%s( %s );\n",upper_string(pattern_complete(f->options->local_name->text,f->name->text)),arg_string(f->params));
}
コード例 #14
0
ファイル: single_star_io.C プロジェクト: Ingwar/amuse 
void single_star::star_transformation_story(stellar_type new_type)
{
    char info_line[MAX_STORY_LINE_LENGTH];
    stellar_type old_type = get_element_type();
    real time = get_current_time();

    sprintf(info_line,
	    "%s_to_%s_at_time = %6.2f",
	    type_string(old_type), type_string(new_type), time);

    add_story_line(get_node()->get_log_story(), info_line);

    // cerr output for debugging!

    cerr << endl << get_node()->format_label() << " " << info_line
	 << " Myr (old mass = " << get_total_mass() << ")" << endl;

    if(is_binary_component()) {
#if 0 // This should be fixed some time SPZ:26/02/03
      if(get_binary()->obtain_binary_type() == Merged) {
	cerr << "binary is merged." << endl;
      }
      else if(get_binary()->obtain_binary_type() == Disrupted) {
	cerr << "binary is disrupted, other component: " << endl
	     << type_string(get_companion()->get_element_type()) << endl;
      }
      else {
	cerr << "binary companion: " 
	     << type_string(get_companion()->get_element_type()) << endl;
      }
#endif
      cerr << "binary companion: " 
	   << type_string(get_companion()->get_element_type()) << endl;
      cerr << "parent: " << get_node()->get_parent()->format_label() 
	   << endl;
    }
}
コード例 #15
0
ファイル: DataRecordGroup.cpp プロジェクト: lonnell/trick 
int Trick::DataRecordGroup::write_header() {

    unsigned int jj ;
    std::string header_name ;
    std::fstream out_stream ;

    /*! create the header file used by the GUIs */
    header_name = output_dir + "/log_" + group_name + ".header" ;

    out_stream.open(header_name.c_str(), std::fstream::out ) ;
    if ( ! out_stream  ||  ! out_stream.good() ) {
#ifndef _DMTCP
        message_publish(MSG_ERROR, "Can't open Data Record file %s.\n", header_name.c_str()) ;
#endif
        return -1;
    }

    /* Header file first line is created in format specific header */
    out_stream << "log_" << group_name ;

    format_specific_header(out_stream) ;

    /* Output the file name, variable size, units, and variable name
     * to the rest of recorded data header file.
     * (e.g. file_name  C_type  units  sim_name)
     * Note: "sys.exec.out.time" should be the first variable in the buffer.
     */
    for (jj = 0; jj < rec_buffer.size() ; jj++) {
        /*! recording single data item */
        out_stream << "log_" << group_name << "\t"
            << type_string(rec_buffer[jj]->ref->attr->type,
                           rec_buffer[jj]->ref->attr->size) << "\t"
            << std::setw(6) ;

        if ( rec_buffer[jj]->ref->attr->mods & TRICK_MODS_UNITSDASHDASH ) {
            out_stream << "--" ;
        } else {
            out_stream << rec_buffer[jj]->ref->attr->units ;
        }
        out_stream << "\t" << rec_buffer[jj]->ref->reference << std::endl ;
    }

    // Send all unwritten characters in the buffer to its output/file.
    out_stream.flush() ;
    out_stream.close() ;

    return(0) ;

}
コード例 #16
0
ファイル: generate.c プロジェクト: NASAHackTO/mesh 
void write_vararg_decls( FILE *file, struct param *p )
{
	struct param *q=0;

	/* Skip to the first vararg (if any) */

	while(1) {
		if(!p) return;
		if(p->is_vararg) break;
		q=p;
		p = p->next;
	}

	/* Now, q is null or points to the param previous to p. */

	if(!q) {
		fprintf(stderr,"*** At least one regular parameter must precede any variable parameters.\n");
		return;
	}

	/* Begin the vararg traversal */

	fprintf(file,"\tva_list bypass_arglist;\n");
	fprintf(file,"\tva_start(bypass_arglist,%s);\n",q->name->text);

	/* For each remaining parameter, declare storage and extract it */

	for( ; p; p=p->next ) {
		fprintf(file,"\t%s\t%s;\n",type_string(p->type),p->name->text);
		fprintf(file,"\t%s = va_arg(bypass_arglist,%s);\n",p->name->text,type_string(p->type));
	}

	/* Done with the traversal */

	fprintf(file,"\tva_end(bypass_arglist);\n");
}
コード例 #17
0
static int list_op(const char *input_dir)
{
	AVIODirEntry *entry = NULL;
	AVIODirContext *ctx = NULL;
	int cnt, ret;
	char filemode[4], uid_and_gid[20];

	if ((ret = avio_open_dir(&ctx, input_dir, NULL)) < 0) {
		av_log(NULL, AV_LOG_ERROR, "Cannot open directory: %s.\n", av_err2str(ret));
		goto fail;
	}

	cnt = 0;
	for (;;) {
		if ((ret = avio_read_dir(ctx, &entry)) < 0) {
			av_log(NULL, AV_LOG_ERROR, "Cannot list directory: %s.\n", av_err2str(ret));
			goto fail;
		}
		if (!entry)
			break;
		if (entry->filemode == -1) {
			snprintf(filemode, 4, "???");
		}
		else {
			snprintf(filemode, 4, "%3"PRIo64, entry->filemode);
		}
		snprintf(uid_and_gid, 20, "%"PRId64"(%"PRId64")", entry->user_id, entry->group_id);
		if (cnt == 0)
			av_log(NULL, AV_LOG_INFO, "%-9s %12s %30s %10s %s %16s %16s %16s\n",
			"TYPE", "SIZE", "NAME", "UID(GID)", "UGO", "MODIFIED",
			"ACCESSED", "STATUS_CHANGED");
		av_log(NULL, AV_LOG_INFO, "%-9s %12"PRId64" %30s %10s %s %16"PRId64" %16"PRId64" %16"PRId64"\n",
			type_string(entry->type),
			entry->size,
			entry->name,
			uid_and_gid,
			filemode,
			entry->modification_timestamp,
			entry->access_timestamp,
			entry->status_change_timestamp);
		avio_free_directory_entry(&entry);
		cnt++;
	};

fail:
	avio_close_dir(&ctx);
	return ret;
}
コード例 #18
0
ファイル: Event.cpp プロジェクト: thelaui/SIRR 
void Event::print(std::ostream& os) const {
    std::string type_string("Invalid event");

    switch (type_) {
        case START:
            type_string = "Start event";
            break;
        case END:
            type_string = "End event";
            break;
        case INTERSECTION:
            type_string = "Intersection event";
            break;
        default: break;
    }

    os << type_string << " at " << position_ ;
}
コード例 #19
0
ファイル: generate.c プロジェクト: NASAHackTO/mesh 
void generate_shadow_action( FILE *file, struct function *f )
{
	fprintf(file,"static %s bypass_shadow_action_%s( %s )\n{\n",type_string(f->type),f->name->text,param_string_noconst(f->params));
	
	write_vararg_decls(file,f->params);

	if(f->shadow_action) {
		fprintf(file,"%s\n",f->shadow_action->text );
	} else {

		if(!is_void(f->type)) {
			fprintf(file,"\treturn ");
		}

		fprintf(file,"%s( %s );\n",f->name->text,arg_string_noconst(f->params));
	}

	fprintf(file,"\n}\n\n");
}
コード例 #20
0
ファイル: hyper_giant.C プロジェクト: Ingwar/amuse 
real hyper_giant::add_mass_to_accretor(real mdot, const real dt) {

        real m_tot = get_total_mass();

        if (mdot<0) {
/*
           error << "hyper_giant::add_mass_to_accretor(mdot="
                 << mdot << ")"<<endl;
           error << "mdot (" << mdot << ") smaller than zero!" << endl;
           error << "Action: proceed!" << endl;
*/
        }

        mdot = accretion_limit(mdot, dt);
        adjust_accretor_age(mdot);
        if (relative_mass<get_total_mass() + mdot)
           relative_mass = get_total_mass() + mdot;
        envelope_mass += mdot;

	// Wind mass loss for massive stars (SPZ:July 1998)
	if (relative_mass >= cnsts.parameters(massive_star_mass_limit)) {

	  // Mass loss constant in time.
	  wind_constant = envelope_mass/(next_update_age-relative_age);
	  wind_constant = max(wind_constant, 0.);

	  cerr << type_string(get_element_type())
	       << " wind treatment for stars with M >="
	       << cnsts.parameters(massive_star_mass_limit)
	       << " for " << identity << endl
	       << "   M = " << get_total_mass() << " [Msun] "
	       << "   Mdot = " << wind_constant
	       << " [Msun/Myr] "
	       << endl;

	}

	set_spec_type(Accreting);
	
        return mdot;

     }
コード例 #21
0
bool BrowserWrapper::IsHtmlPage(IHTMLDocument2* doc) {
	CComBSTR type;
	if (!SUCCEEDED(doc->get_mimeType(&type))) {
		return false;
	}

	std::wstring document_type_key_name(L"");
	if (this->factory_.GetRegistryValue(HKEY_CURRENT_USER, L"Software\\Microsoft\\Windows\\Shell\\Associations\\UrlAssociations\\http\\UserChoice", L"Progid", &document_type_key_name)) {
		// Look for the user-customization under Vista/Windows 7 first. If it's
		// IE, set the document friendly name lookup key to 'htmlfile'. If not,
		// set it to blank so that we can look up the proper HTML type.
		if (document_type_key_name == L"IE.HTTP") {
			document_type_key_name = L"htmlfile";
		} else {
			document_type_key_name = L"";
		}
	}

	if (document_type_key_name == L"") {
		// To be technically correct, we should look up the extension specified
		// for the text/html MIME type first (located in the "Extension" value
		// of HKEY_CLASSES_ROOT\MIME\Database\Content Type\text/html), but that
		// should always resolve to ".htm" anyway. From the extension, we can 
		// find the browser-specific subkey of HKEY_CLASSES_ROOT, the default 
		// value of which should contain the browser-specific friendly name of
		// the MIME type for HTML documents, which is what 
		// IHTMLDocument2::get_mimeType() returns.
		if (!this->factory_.GetRegistryValue(HKEY_CLASSES_ROOT, L".htm", L"", &document_type_key_name)) {
			return false;
		}
	}

	std::wstring mime_type_name;
	if (!this->factory_.GetRegistryValue(HKEY_CLASSES_ROOT, document_type_key_name, L"", &mime_type_name)) {
		return false;
	}

	std::wstring type_string((BSTR)type);
	return type_string == mime_type_name;
}
コード例 #22
0
ファイル: sound-meter.c プロジェクト: denrusio/vak-opensource 
int main (int argc, char **argv)
{
/*	int i;*/

	progname = *argv;
	for (;;) {
		switch (getopt (argc, argv, "vd")) {
		case EOF:
			break;
		case 'v':
			++verbose;
			continue;
		case 'd':
			++debug;
			continue;
		default:
			usage ();
		}
		break;
	}
	argc -= optind;
	argv += optind;

	if (argc > 0)
		usage ();

	audio_init_input ();
	pause ();
#if 0
	/* Play args. */
	for (i=0; i<argc; ++i) {
		space_seen = 1;
		type_string (argv[i]);
		type_char (' ');
	}
#endif
	return (0);
}
コード例 #23
0
ファイル: generate.c プロジェクト: NASAHackTO/mesh 
void generate_agent_action( FILE *file, struct function *f )
{
	fprintf(file,"extern \"C\" %s bypass_agent_action_%s( %s )\n{\n",type_string(f->type),f->name->text,param_string(f->params));
	
	write_vararg_decls(file,f->params);

	if(f->agent_action) {
		fprintf(file,"\t%s\n",f->agent_action->text );
	} else {

		if(!is_void(f->type)) {
			fprintf(file,"\treturn ");
		}

		fprintf(file,"bypass_shadow_%s( %s );\n",pattern_complete(f->options->remote_name->text,f->name->text),arg_string_noconst(f->params));
	}

	fprintf(file,"\n}\n\n");

	if( f->options->instead ) {
		generate_agent_action( file, f->options->instead );
	}
}
コード例 #24
0
ファイル: generate.c プロジェクト: NASAHackTO/mesh 
void write_dynamic_call( FILE *file, struct function *f )
{
	/* Declare a library handle, open it if needed */
	fprintf(file,"\t\t\tstatic void *handle = 0;\n");
	fprintf(file,"\t\t\tif(!handle) handle = bypass_library_open(\"%s.so\");\n",f->options->library->text);
	fprintf(file,"\t\t\tif(!handle) handle = bypass_library_open(\"%s.sl\");\n",f->options->library->text);
	fprintf(file,"\t\t\tif(!handle) handle = bypass_library_open(\"%s.so.6\");\n",f->options->library->text);
	fprintf(file,"\t\t\tif(!handle) bypass_call_error(BYPASS_CALL_%s,\"can't find library\");\n\n",f->name->text);

	/* Declare a function pointer, look it up if needed */
	fprintf(file,"\t\t\tstatic %s (*fptr)( %s ) = 0;\n",type_string(f->type),param_string(f->params));
	fprintf(file,"\t\t\tif(!fptr) fptr = (%s(*)(%s)) bypass_library_lookup(handle,\"%s\");\n",type_string(f->type),param_string(f->params),pattern_complete(f->options->local_name->text,f->name->text));
	fprintf(file,"\t\t\tif(!fptr) bypass_call_error(BYPASS_CALL_%s,\"can't find procedure in library\");\n",f->name->text);

	/* Otherwise, invoke the function */

	if(!is_void(f->type)) {
		fprintf(file,"\t\t\tresult = ");
	} else {
		fprintf(file,"\t\t\t");
	}
	fprintf(file,"fptr( %s );\n",arg_string(f->params));
}
コード例 #25
0
ファイル: stringtools.c プロジェクト: NASAHackTO/mesh 
char *param_string( struct param *p )
{
	char *buffer = malloc(STRING_BUFFER_SIZE*10);

	if(!p) {
		strcpy(buffer,"void");
		return buffer;
	}

	for( buffer[0]=0; p!=0; p=p->next) {
		strcat(buffer,type_string(p->type));
		strcat(buffer," ");
		strcat(buffer,p->name->text);
		if(p->next) {
			strcat(buffer,", ");
			if(p->next->is_vararg) {
				strcat(buffer,"...");
				break;
			}
		}
	}

	return buffer;
}
コード例 #26
0
ファイル: generator_opencl.cpp プロジェクト: Nocte-/hexanoise 
std::string generator_opencl::co(const node& n)
{
    switch (n.type) {
    case node::entry_point:
        return "p";
    case node::const_var:
        return std::to_string(n.aux_var);
    case node::const_bool:
        return std::to_string(n.aux_bool);
    case node::const_str:
        throw std::runtime_error("string encountered");

    case node::rotate:
        return "p_rotate" + pl(n);
    case node::rotate3:
        return "p_rotate3(" + co(n.input[0]) + ", (double3)(" + co(n.input[1]) + "," + co(n.input[2]) + "," + co(n.input[3]) + "), " + co(n.input[4]) + ")";
    case node::scale:
    case node::scale3:
        return "(" + co(n.input[0]) + "/" + co(n.input[1]) + ")";
    case node::shift:
        return "(" + co(n.input[0]) + "+(double2)(" + co(n.input[1]) + ","
               + co(n.input[2]) + "))";
    case node::shift3:
        return "(" + co(n.input[0]) + "+(double3)(" + co(n.input[1]) + ","
               + co(n.input[2]) + "," + co(n.input[3]) + "))";
    case node::swap:
        return "p_swap" + pl(n);

    case node::map: {
        std::string func_name{std::string("ip_map") + std::to_string(count_++)};

        std::stringstream func_body;
        func_body << "inline double2 " << func_name
                  << " (const double2 p) { return (double2)(" << co(n.input[1])
                  << ", " << co(n.input[2]) << "); }" << std::endl;

        functions_.emplace_back(func_body.str());

        return func_name + "(" + co(n.input[0]) + ")";
    }
    case node::map3: {
        std::string func_name{"ip_map3" + std::to_string(count_++)};

        std::stringstream func_body;
        func_body << "inline double3 " << func_name
                  << " (const double3 p) { return (double3)(" << co(n.input[1])
                  << ", " << co(n.input[2]) << ", " << co(n.input[3]) << "); }"
                  << std::endl;

        functions_.emplace_back(func_body.str());

        return func_name + "(" + co(n.input[0]) + ")";
    }

    case node::turbulence: {
        std::string func_name("ip_turb" + std::to_string(count_++));

        std::stringstream func_body;
        func_body << "inline double2 " << func_name
                  << " (const double2 p) { return (double2)("
                  << "p.x+(" << co(n.input[1]) << "), "
                  << "p.y+(" << co(n.input[2]) << ")); }" << std::endl;

        functions_.emplace_back(func_body.str());

        return func_name + "(" + co(n.input[0]) + ")";
    }

    case node::turbulence3: {
        std::string func_name("ip_turb3" + std::to_string(count_++));

        std::stringstream func_body;
        func_body << "inline double3 " << func_name
                  << " (const double3 p) { return (double3)("
                  << "p.x+(" << co(n.input[1]) << "), "
                  << "p.y+(" << co(n.input[2]) << "), "
                  << "p.z+(" << co(n.input[3]) << ")); }" << std::endl;

        functions_.emplace_back(func_body.str());

        return func_name + "(" + co(n.input[0]) + ")";
    }

    case node::worley: {
        std::string func_name("ip_worley" + std::to_string(count_++));

        std::stringstream func_body;
        func_body << "inline double " << func_name
                  << " (const double2 q, uint seed) { "
                  << "  double2 p = p_worley(q, seed);"
                  << "  return " << co(n.input[1]) << "; }" << std::endl;

        functions_.emplace_back(func_body.str());
        return func_name + "(" + co(n.input[0]) + "," + co(n.input[2]) + ")";
    }

    case node::worley3: {
        std::string func_name("ip_worley3" + std::to_string(count_++));

        std::stringstream func_body;
        func_body << "inline double " << func_name
                  << " (const double3 q, uint seed) { "
                  << "  double3 p = p_worley3(q, seed);"
                  << "  return " << co(n.input[1]) << "; }" << std::endl;

        functions_.emplace_back(func_body.str());
        return func_name + "(" + co(n.input[0]) + "," + co(n.input[2]) + ")";
    }

    case node::voronoi: {
        std::string func_name("ip_voronoi" + std::to_string(count_++));

        std::stringstream func_body;
        func_body << "inline double " << func_name
                  << " (const double2 q, uint seed) { "
                  << "  double2 p = p_voronoi(q, seed);"
                  << "  return " << co(n.input[1]) << "; }" << std::endl;

        functions_.emplace_back(func_body.str());
        return func_name + "(" + co(n.input[0]) + "," + co(n.input[2]) + ")";
    }

    case node::angle:
        return "p_angle" + pl(n);
    case node::chebyshev:
        return "p_chebyshev" + pl(n);
    case node::chebyshev3:
        return "p_chebyshev3" + pl(n);
    case node::checkerboard:
        return "p_checkerboard" + pl(n);
    case node::checkerboard3:
        return "p_checkerboard3" + pl(n);
    case node::distance:
    case node::distance3:
        return "length" + pl(n);
    case node::manhattan:
        return "p_manhattan" + pl(n);
    case node::manhattan3:
        return "p_manhattan3" + pl(n);
    case node::perlin:
        return "p_perlin" + pl(n);
    case node::perlin3:
        return "p_perlin3" + pl(n);
    case node::simplex:
        return "p_simplex" + pl(n);
    case node::simplex3:
        return "p_simplex3" + pl(n);
    case node::opensimplex:
        return "p_opensimplex" + pl(n);
    case node::opensimplex3:
        return "p_opensimplex3" + pl(n);
    case node::x:
        return co(n.input[0]) + ".x";
    case node::y:
        return co(n.input[0]) + ".y";
    case node::z:
        return co(n.input[0]) + ".z";
    case node::xy:
        return co(n.input[0]) + ".xy";
    case node::zplane:
        return "(double3)(" + co(n.input[0]) + "," + co(n.input[1]) + ")";

    case node::add:
        return "(" + co(n.input[0]) + "+" + co(n.input[1]) + ")";
    case node::sub:
        return "(" + co(n.input[0]) + "-" + co(n.input[1]) + ")";
    case node::mul:
        return "(" + co(n.input[0]) + "*" + co(n.input[1]) + ")";
    case node::div:
        return "(" + co(n.input[0]) + "/" + co(n.input[1]) + ")";

    case node::abs:
        return "fabs" + pl(n);
    case node::blend:
        return "p_blend" + pl(n);
    case node::cos:
        return "cospi" + pl(n);
    case node::min:
        return "fmin" + pl(n);
    case node::max:
        return "fmax" + pl(n);
    case node::neg:
        return "-" + co(n.input[0]);

    case node::pow: {
        if (n.input[1].is_const) {
            double exp(std::floor(n.input[1].aux_var));
            if (std::abs(exp - n.input[1].aux_var) < 1e-9)
                return "pown(" + co(n.input[0]) + ","
                       + std::to_string((int)exp) + ")";
        }
        return "pow" + pl(n);
    }

    case node::round:
        return "round" + pl(n);
    case node::saw:
        return "p_saw" + pl(n);
    case node::sin:
        return "sinpi" + pl(n);
    case node::sqrt:
        return "sqrt" + pl(n);
    case node::tan:
        return "tanpi" + pl(n);

    case node::band:
        return co(n.input[0]) + "&&" + co(n.input[1]);
    case node::bor:
        return co(n.input[0]) + "||" + co(n.input[1]);
    case node::bxor:
        return "((" + co(n.input[0]) + ")!=(" + co(n.input[1]) + "))";
    case node::bnot:
        return "!" + co(n.input[0]);

    case node::is_equal:
        return co(n.input[0]) + "==" + co(n.input[1]);
    case node::is_greaterthan:
        return co(n.input[0]) + ">" + co(n.input[1]);
    case node::is_gte:
        return co(n.input[0]) + ">=" + co(n.input[1]);
    case node::is_lessthan:
        return co(n.input[0]) + "<" + co(n.input[1]);
    case node::is_lte:
        return co(n.input[0]) + "<=" + co(n.input[1]);

    case node::is_in_circle:
        return "p_is_in_circle" + pl(n);
    case node::is_in_rectangle:
        return "p_is_in_rectangle" + pl(n);

    case node::then_else:
        return "(" + co(n.input[0]) + ")?(" + co(n.input[1]) + "):("
               + co(n.input[2]) + ")";

    case node::fractal: {
        assert(n.input.size() == 5);
        if (!n.input[2].is_const)
            throw std::runtime_error(
                "fractal octave count must be a constexpr");

        int octaves(std::min<int>(n.input[2].aux_var, OPENCL_OCTAVES_LIMIT));

        std::string func_name("ip_fractal_" + std::to_string(count_++));

        std::stringstream func_body;
        func_body
            << "double " << func_name
            << " (double2 p, const double lac, const double per) {"
            << "double result = 0.0; double div = 0.0; double step = 1.0;"
            << "for(int i = 0; i < " << octaves << "; ++i)"
            << "{"
            << "  result += " << co(n.input[1]) << " * step;"
            << "  div += step;"
            << "  step *= per;"
            << "  p *= lac;"
            << "  p.x += 12345.0;"
            << "}"
            << "return result / div;"
            << "}";

        functions_.emplace_back(func_body.str());

        return func_name + "(" + co(n.input[0]) + "," + co(n.input[3]) + ","
               + co(n.input[4]) + ")";
    }

    case node::fractal3: {
        assert(n.input.size() == 5);
        if (!n.input[2].is_const)
            throw std::runtime_error(
                "fractal octave count must be a constexpr");

        int octaves = std::min<int>(n.input[2].aux_var, OPENCL_OCTAVES_LIMIT);

        std::string func_name{"ip_fractal3_" + std::to_string(count_++)};

        std::stringstream func_body;
        func_body
            << "double " << func_name
            << " (double3 p, const double lac, const double per) {"
            << "double result = 0.0; double div = 0.0; double step = 1.0;"
            << "for(int i = 0; i < " << octaves << "; ++i)"
            << "{"
            << "  result += " << co(n.input[1]) << " * step;"
            << "  div += step;"
            << "  step *= per;"
            << "  p *= lac;"
            << "  p.x += 12345.0;"
            << "}"
            << "return result / div;"
            << "}";

        functions_.emplace_back(func_body.str());

        return func_name + "(" + co(n.input[0]) + "," + co(n.input[3]) + ","
               + co(n.input[4]) + ")";
    }

    case node::lambda_: {
        assert(n.input.size() == 2);
        std::string func_name{"ip_lambda_" + std::to_string(count_++)};
        std::string type{type_string(n.input[0])};

        std::stringstream func_body;
        func_body << "double " << func_name << " (" << type << " p) {"
                  << "return " << co(n.input[1]) << ";}" << std::endl;

        functions_.emplace_back(func_body.str());

        return func_name + "(" + co(n.input[0]) + ")";
    }

    case node::external_:
        throw std::runtime_error("OpenCL @external not implemented yet");

    case node::curve_linear:
        throw std::runtime_error("OpenCL curve_linear not implemented yet");

    case node::curve_spline:
        throw std::runtime_error("OpenCL curve_spline not implemented yet");

    case node::png_lookup:
        throw std::runtime_error("OpenCL png_lookup not implemented yet");

    default:
        throw std::runtime_error("function not implemented in OpenCL yet");
    }

    return std::string();
}
コード例 #27
0
// ------------------------------------------------------------------
// ciMetadata::print
//
// Print debugging output about this ciMetadata.
//
// Implementation note: dispatch to the virtual print_impl behavior
// for this ciObject.
void ciMetadata::print(outputStream* st) {
  st->print("<%s", type_string());
  GUARDED_VM_ENTRY(print_impl(st);)
コード例 #28
0
ファイル: generate.c プロジェクト: NASAHackTO/mesh 
void generate_sender_prototype( FILE *file, struct function *f )
{
	fprintf(file,"extern \"C\" %s bypass_shadow_%s( %s );\n",type_string(f->type),f->name->text,param_string_noconst(f->params));
}
コード例 #29
0
ファイル: matrix_convert.cpp プロジェクト: 10imaging/viennacl 
int test()
{
  int retval = EXIT_SUCCESS;

  std::cout << std::endl;
  std::cout << "-----------------------------------------------" << std::endl;
  std::cout << std::endl;
  std::cout << "Conversion test from " << type_string(FromNumericT()) << " to " << type_string(ToNumericT()) << std::endl;
  std::cout << std::endl;

  std::size_t full_size1  = 578;
  std::size_t small_size1 = full_size1 / 4;

  std::size_t full_size2  = 687;
  std::size_t small_size2 = full_size2 / 4;

  //
  // Set up STL objects
  //
  std::vector<FromNumericT>               std_src(full_size1 * full_size2);
  std::vector<std::vector<FromNumericT> > std_src2(full_size1, std::vector<FromNumericT>(full_size2));
  std::vector<std::vector<FromNumericT> > std_src_small(small_size1, std::vector<FromNumericT>(small_size2));
  std::vector<ToNumericT> std_dest(std_src.size());

  for (std::size_t i=0; i<full_size1; ++i)
    for (std::size_t j=0; j<full_size2; ++j)
    {
      std_src[i * full_size2 + j]  = FromNumericT(1.0) + FromNumericT(i) + FromNumericT(j);
      std_src2[i][j]  = FromNumericT(1.0) + FromNumericT(i) + FromNumericT(j);
      if (i < small_size1 && j < small_size2)
        std_src_small[i][j]  = FromNumericT(1.0) + FromNumericT(i) + FromNumericT(j);
    }

  //
  // Set up ViennaCL objects
  //
  viennacl::matrix<FromNumericT, LayoutT> vcl_src(full_size1, full_size2);
  viennacl::matrix<ToNumericT,   LayoutT> vcl_dest(full_size1, full_size2);

  viennacl::copy(std_src2, vcl_src);

  viennacl::matrix<FromNumericT, LayoutT> vcl_src_small(small_size1, small_size2);
  viennacl::copy(std_src_small, vcl_src_small);
  viennacl::matrix<ToNumericT, LayoutT> vcl_dest_small(small_size1, small_size2);

  std::size_t r11_start = 1 + full_size1 / 4;
  std::size_t r11_stop  = r11_start + small_size1;
  viennacl::range vcl_r11(r11_start, r11_stop);

  std::size_t r12_start = 2 * full_size1 / 4;
  std::size_t r12_stop  = r12_start + small_size1;
  viennacl::range vcl_r12(r12_start, r12_stop);

  std::size_t r21_start = 2 * full_size2 / 4;
  std::size_t r21_stop  = r21_start + small_size2;
  viennacl::range vcl_r21(r21_start, r21_stop);

  std::size_t r22_start = 1 + full_size2 / 4;
  std::size_t r22_stop  = r22_start + small_size2;
  viennacl::range vcl_r22(r22_start, r22_stop);

  viennacl::matrix_range< viennacl::matrix<FromNumericT, LayoutT> > vcl_range_src(vcl_src, vcl_r11, vcl_r21);
  viennacl::matrix_range< viennacl::matrix<ToNumericT, LayoutT> >   vcl_range_dest(vcl_dest, vcl_r12, vcl_r22);



  std::size_t s11_start = 1 + full_size1 / 5;
  std::size_t s11_inc   = 3;
  std::size_t s11_size  = small_size1;
  viennacl::slice vcl_s11(s11_start, s11_inc, s11_size);

  std::size_t s12_start = 2 * full_size1 / 5;
  std::size_t s12_inc   = 2;
  std::size_t s12_size  = small_size1;
  viennacl::slice vcl_s12(s12_start, s12_inc, s12_size);

  std::size_t s21_start = 1 + full_size2 / 5;
  std::size_t s21_inc   = 3;
  std::size_t s21_size  = small_size2;
  viennacl::slice vcl_s21(s21_start, s21_inc, s21_size);

  std::size_t s22_start = 2 * full_size2 / 5;
  std::size_t s22_inc   = 2;
  std::size_t s22_size  = small_size2;
  viennacl::slice vcl_s22(s22_start, s22_inc, s22_size);

  viennacl::matrix_slice< viennacl::matrix<FromNumericT, LayoutT> > vcl_slice_src(vcl_src, vcl_s11, vcl_s21);
  viennacl::matrix_slice< viennacl::matrix<ToNumericT, LayoutT> >   vcl_slice_dest(vcl_dest, vcl_s12, vcl_s22);

  //
  // Now start running tests for vectors, ranges and slices:
  //

  std::cout << " ** vcl_src = matrix, vcl_dest = matrix **" << std::endl;
  retval = test(std_src,  0, 1, full_size1, 0, 1, full_size2, full_size2,
                std_dest, 0, 1, full_size1, 0, 1, full_size2, full_size2,
                vcl_src, vcl_dest);
  if (retval != EXIT_SUCCESS)
    return EXIT_FAILURE;

  std::cout << " ** vcl_src = matrix, vcl_dest = range **" << std::endl;
  retval = test(std_src,          0, 1, small_size1,                  0, 1,          small_size2, full_size2,
                std_dest, r12_start, 1, r12_stop - r12_start, r22_start, 1, r22_stop - r22_start, full_size2,
                vcl_src_small, vcl_range_dest);
  if (retval != EXIT_SUCCESS)
    return EXIT_FAILURE;

  std::cout << " ** vcl_src = matrix, vcl_dest = slice **" << std::endl;
  retval = test(std_src,          0,       1, small_size1,         0,       1, small_size2, full_size2,
                std_dest, s12_start, s12_inc,    s12_size, s22_start, s22_inc,    s22_size, full_size2,
                vcl_src_small, vcl_slice_dest);
  if (retval != EXIT_SUCCESS)
    return EXIT_FAILURE;

  ///////

  std::cout << " ** vcl_src = range, vcl_dest = matrix **" << std::endl;
  retval = test(std_src,  r11_start, 1, r11_stop - r11_start, r21_start, 1, r21_stop - r21_start, full_size2,
                std_dest,         0, 1,          small_size1,         0, 1,          small_size2, full_size2,
                vcl_range_src, vcl_dest_small);
  if (retval != EXIT_SUCCESS)
    return EXIT_FAILURE;

  std::cout << " ** vcl_src = range, vcl_dest = range **" << std::endl;
  retval = test(std_src,  r11_start, 1, r11_stop - r11_start, r21_start, 1, r21_stop - r21_start, full_size2,
                std_dest, r12_start, 1, r12_stop - r12_start, r22_start, 1, r22_stop - r22_start, full_size2,
                vcl_range_src, vcl_range_dest);
  if (retval != EXIT_SUCCESS)
    return EXIT_FAILURE;

  std::cout << " ** vcl_src = range, vcl_dest = slice **" << std::endl;
  retval = test(std_src,  r11_start,       1, r11_stop - r11_start, r21_start,       1, r21_stop - r21_start, full_size2,
                std_dest, s12_start, s12_inc,             s12_size, s22_start, s22_inc,             s22_size, full_size2,
                vcl_range_src, vcl_slice_dest);
  if (retval != EXIT_SUCCESS)
    return EXIT_FAILURE;

  ///////

  std::cout << " ** vcl_src = slice, vcl_dest = matrix **" << std::endl;
  retval = test(std_src,  s11_start, s11_inc,    s11_size, s21_start, s21_inc,    s21_size, full_size2,
                std_dest,         0,       1, small_size1,         0,       1, small_size2, full_size2,
                vcl_slice_src, vcl_dest_small);
  if (retval != EXIT_SUCCESS)
    return EXIT_FAILURE;

  std::cout << " ** vcl_src = slice, vcl_dest = range **" << std::endl;
  retval = test(std_src,  s11_start, s11_inc,             s11_size, s21_start, s21_inc,             s21_size, full_size2,
                std_dest, r12_start,       1, r12_stop - r12_start, r22_start,       1, r22_stop - r22_start, full_size2,
                vcl_slice_src, vcl_range_dest);
  if (retval != EXIT_SUCCESS)
    return EXIT_FAILURE;

  std::cout << " ** vcl_src = slice, vcl_dest = slice **" << std::endl;
  retval = test(std_src,  s11_start, s11_inc, s11_size, s21_start, s21_inc, s21_size, full_size2,
                std_dest, s12_start, s12_inc, s12_size, s22_start, s22_inc, s22_size, full_size2,
                vcl_slice_src, vcl_slice_dest);
  if (retval != EXIT_SUCCESS)
    return EXIT_FAILURE;

  return EXIT_SUCCESS;
}
コード例 #30
0
ファイル: generate.c プロジェクト: NASAHackTO/mesh 
void generate_switch_prototype( FILE *file, struct function *f )
{
	fprintf(file,"extern \"C\" %s %s( %s );\n",type_string(f->type),f->name->text,param_string(f->params));
}