// runtime.def -- runtime functions called by generated code. -*- C++ -*- // Copyright 2011 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // Definitions for the Go runtime functions. // Parameter type helper macros. #define ABFT6(T1, T2, T3, T4, T5, T6) \ { RFT_ ## T1, RFT_ ## T2, RFT_ ## T3, RFT_ ## T4, RFT_ ## T5, RFT_ ## T6 } #define P0() ABFT6(VOID, VOID, VOID, VOID, VOID, VOID) #define P1(T) ABFT6(T, VOID, VOID, VOID, VOID, VOID) #define P2(T1, T2) ABFT6(T1, T2, VOID, VOID, VOID, VOID) #define P3(T1, T2, T3) ABFT6(T1, T2, T3, VOID, VOID, VOID) #define P4(T1, T2, T3, T4) ABFT6(T1, T2, T3, T4, VOID, VOID) #define P5(T1, T2, T3, T4, T5) ABFT6(T1, T2, T3, T4, T5, VOID) #define P6(T1,T2,T3,T4,T5,T6) ABFT6(T1, T2, T3, T4, T5, T6) // Result type helper macros. #define ABFT2(T1, T2) { RFT_ ## T1, RFT_ ## T2 } #define R0() ABFT2(VOID, VOID) #define R1(T) ABFT2(T, VOID) #define R2(T1, T2) ABFT2(T1, T2) // Define all the Go runtime functions. The first parameter is the // enum code used to refer to the function. The second parameter is // the name. The third is the parameter types and the fourth is the // result types. // Range over a string, returning the next index. DEF_GO_RUNTIME(STRINGITER, "runtime.stringiter", P2(STRING, INT), R1(INT)) // Range over a string, returning the next index and character. DEF_GO_RUNTIME(STRINGITER2, "runtime.stringiter2", P2(STRING, INT), R2(INT, INT)) // Concatenate two strings. DEF_GO_RUNTIME(STRING_PLUS, "__go_string_plus", P2(STRING, STRING), R1(STRING)) // Compare two strings. DEF_GO_RUNTIME(STRCMP, "__go_strcmp", P2(STRING, STRING), R1(INT)) // Take a slice of a string. DEF_GO_RUNTIME(STRING_SLICE, "__go_string_slice", P3(STRING, INT, INT), R1(STRING)) // Convert an integer to a string. DEF_GO_RUNTIME(INT_TO_STRING, "__go_int_to_string", P1(INT), R1(STRING)) // Convert a byte array to a string. DEF_GO_RUNTIME(BYTE_ARRAY_TO_STRING, "__go_byte_array_to_string", P2(POINTER, INT), R1(STRING)) // Convert an int array to a string. DEF_GO_RUNTIME(INT_ARRAY_TO_STRING, "__go_int_array_to_string", P2(POINTER, INT), R1(STRING)) // Convert a string to a byte slice. DEF_GO_RUNTIME(STRING_TO_BYTE_ARRAY, "__go_string_to_byte_array", P1(STRING), R1(SLICE)) // Convert a string to an int slice. DEF_GO_RUNTIME(STRING_TO_INT_ARRAY, "__go_string_to_int_array", P1(STRING), R1(SLICE)) // Make a slice. DEF_GO_RUNTIME(MAKESLICE1, "__go_make_slice1", P2(TYPE, UINTPTR), R1(SLICE)) DEF_GO_RUNTIME(MAKESLICE2, "__go_make_slice2", P3(TYPE, UINTPTR, UINTPTR), R1(SLICE)) // Make a map. DEF_GO_RUNTIME(MAKEMAP, "__go_new_map", P2(MAPDESCRIPTOR, UINTPTR), R1(MAP)) // Build a map from a composite literal. DEF_GO_RUNTIME(CONSTRUCT_MAP, "__go_construct_map", P6(POINTER, UINTPTR, UINTPTR, UINTPTR, UINTPTR, POINTER), R1(MAP)) // Get the length of a map (the number of entries). DEF_GO_RUNTIME(MAP_LEN, "__go_map_len", P1(MAP), R1(INT)) // Look up a key in a map. DEF_GO_RUNTIME(MAP_INDEX, "__go_map_index", P3(MAP, POINTER, BOOL), R1(POINTER)) // Look up a key in a map returning whether it is present. DEF_GO_RUNTIME(MAPACCESS2, "runtime.mapaccess2", P4(TYPE, MAP, POINTER, POINTER), R1(BOOL)) // Tuple assignment to a map element. DEF_GO_RUNTIME(MAPASSIGN2, "runtime.mapassign2", P4(MAP, POINTER, POINTER, BOOL), R0()) // Delete a key from a map. DEF_GO_RUNTIME(MAPDELETE, "runtime.mapdelete", P2(MAP, POINTER), R0()) // Begin a range over a map. DEF_GO_RUNTIME(MAPITERINIT, "runtime.mapiterinit", P2(MAP, MAPITER), R0()) // Range over a map, returning the next key. DEF_GO_RUNTIME(MAPITER1, "runtime.mapiter1", P2(MAPITER, POINTER), R0()) // Range over a map, returning the next key and value. DEF_GO_RUNTIME(MAPITER2, "runtime.mapiter2", P3(MAPITER, POINTER, POINTER), R0()) // Range over a map, moving to the next map entry. DEF_GO_RUNTIME(MAPITERNEXT, "runtime.mapiternext", P1(MAPITER), R0()) // Make a channel. DEF_GO_RUNTIME(MAKECHAN, "__go_new_channel", P2(TYPE, UINTPTR), R1(CHAN)) // Get the length of a channel (the number of unread values). DEF_GO_RUNTIME(CHAN_LEN, "__go_chan_len", P1(CHAN), R1(INT)) // Get the capacity of a channel (the size of the buffer). DEF_GO_RUNTIME(CHAN_CAP, "__go_chan_cap", P1(CHAN), R1(INT)) // Send a small value on a channel. DEF_GO_RUNTIME(SEND_SMALL, "__go_send_small", P3(TYPE, CHAN, UINT64), R0()) // Send a big value on a channel. DEF_GO_RUNTIME(SEND_BIG, "__go_send_big", P3(TYPE, CHAN, POINTER), R0()) // Receive a small value from a channel. DEF_GO_RUNTIME(RECEIVE_SMALL, "__go_receive_small", P2(TYPE, CHAN), R1(UINT64)) // Receive a big value from a channel. DEF_GO_RUNTIME(RECEIVE_BIG, "__go_receive_big", P3(TYPE, CHAN, POINTER), R0()) // Receive a value from a channel returning whether it is closed. DEF_GO_RUNTIME(CHANRECV2, "runtime.chanrecv2", P3(TYPE, CHAN, POINTER), R1(BOOL)) // Start building a select statement. DEF_GO_RUNTIME(NEWSELECT, "runtime.newselect", P1(INT), R1(POINTER)) // Add a default clause to a select statement. DEF_GO_RUNTIME(SELECTDEFAULT, "runtime.selectdefault", P2(POINTER, INT), R0()) // Add a send clause to a select statement. DEF_GO_RUNTIME(SELECTSEND, "runtime.selectsend", P4(POINTER, CHAN, POINTER, INT), R0()) // Add a receive clause to a select statement, for a clause which does // not check whether the channel is closed. DEF_GO_RUNTIME(SELECTRECV, "runtime.selectrecv", P4(POINTER, CHAN, POINTER, INT), R0()) // Add a receive clause to a select statement, for a clause which does // check whether the channel is closed. DEF_GO_RUNTIME(SELECTRECV2, "runtime.selectrecv2", P5(POINTER, CHAN, POINTER, BOOLPTR, INT), R0()) // Run a select, returning the index of the selected clause. DEF_GO_RUNTIME(SELECTGO, "runtime.selectgo", P1(POINTER), R1(INT)) // Panic. DEF_GO_RUNTIME(PANIC, "__go_panic", P1(EFACE), R0()) // Recover. DEF_GO_RUNTIME(RECOVER, "__go_recover", P0(), R1(EFACE)) // Recover when called directly from defer. DEF_GO_RUNTIME(DEFERRED_RECOVER, "__go_deferred_recover", P0(), R1(EFACE)) // Decide whether this function can call recover. DEF_GO_RUNTIME(CAN_RECOVER, "__go_can_recover", P1(POINTER), R1(BOOL)) // Get the return address of the function. DEF_GO_RUNTIME(RETURN_ADDRESS, "__go_return_address", P1(INT), R1(POINTER)) // Set the return address for defer in a defer thunk. DEF_GO_RUNTIME(SET_DEFER_RETADDR, "__go_set_defer_retaddr", P1(POINTER), R1(BOOL)) // Check for a deferred function in an exception handler. DEF_GO_RUNTIME(CHECK_DEFER, "__go_check_defer", P1(BOOLPTR), R0()) // Run deferred functions. DEF_GO_RUNTIME(UNDEFER, "__go_undefer", P1(BOOLPTR), R0()) // Panic with a runtime error. DEF_GO_RUNTIME(RUNTIME_ERROR, "__go_runtime_error", P1(INT), R0()) // Close. DEF_GO_RUNTIME(CLOSE, "__go_close", P1(CHAN), R0()) // Copy. DEF_GO_RUNTIME(COPY, "__go_copy", P3(POINTER, POINTER, UINTPTR), R0()) // Append. DEF_GO_RUNTIME(APPEND, "__go_append", P4(SLICE, POINTER, UINTPTR, UINTPTR), R1(SLICE)) // Register roots (global variables) for the garbage collector. DEF_GO_RUNTIME(REGISTER_GC_ROOTS, "__go_register_gc_roots", P1(POINTER), R0()) // Allocate memory. DEF_GO_RUNTIME(NEW, "__go_new", P1(UINTPTR), R1(POINTER)) // Allocate memory which can not contain pointers. DEF_GO_RUNTIME(NEW_NOPOINTERS, "__go_new_nopointers", P1(UINTPTR), R1(POINTER)) // Allocate a trampoline for a function literal. DEF_GO_RUNTIME(ALLOCATE_GO_TRAMPOLINE, "__go_allocate_trampoline", P2(UINTPTR, POINTER), R1(POINTER)) // Start a new goroutine. DEF_GO_RUNTIME(GO, "__go_go", P2(FUNC_PTR, POINTER), R0()) // Defer a function. DEF_GO_RUNTIME(DEFER, "__go_defer", P3(BOOLPTR, FUNC_PTR, POINTER), R0()) // Convert an empty interface to an empty interface, returning ok. DEF_GO_RUNTIME(IFACEE2E2, "runtime.ifaceE2E2", P1(EFACE), R2(EFACE, BOOL)) // Convert a non-empty interface to an empty interface, returning ok. DEF_GO_RUNTIME(IFACEI2E2, "runtime.ifaceI2E2", P1(IFACE), R2(EFACE, BOOL)) // Convert an empty interface to a non-empty interface, returning ok. DEF_GO_RUNTIME(IFACEE2I2, "runtime.ifaceE2I2", P2(TYPE, EFACE), R2(IFACE, BOOL)) // Convert a non-empty interface to a non-empty interface, returning ok. DEF_GO_RUNTIME(IFACEI2I2, "runtime.ifaceI2I2", P2(TYPE, IFACE), R2(IFACE, BOOL)) // Convert an empty interface to a pointer type, returning ok. DEF_GO_RUNTIME(IFACEE2T2P, "runtime.ifaceE2T2P", P2(TYPE, EFACE), R2(POINTER, BOOL)) // Convert a non-empty interface to a pointer type, return ok. DEF_GO_RUNTIME(IFACEI2T2P, "runtime.ifaceI2T2P", P2(TYPE, IFACE), R2(POINTER, BOOL)) // Convert an empty interface to a non-pointer type, returning ok. DEF_GO_RUNTIME(IFACEE2T2, "runtime.ifaceE2T2", P3(TYPE, EFACE, POINTER), R1(BOOL)) // Convert a non-empty interface to a non-pointer type, returning ok. DEF_GO_RUNTIME(IFACEI2T2, "runtime.ifaceI2T2", P3(TYPE, IFACE, POINTER), R1(BOOL)) // A type assertion from one interface type to another. This is // used for a type assertion. DEF_GO_RUNTIME(ASSERT_INTERFACE, "__go_assert_interface", P2(TYPE, TYPE), R0()) // Convert one interface type to another. This is used for an // assignment. DEF_GO_RUNTIME(CONVERT_INTERFACE, "__go_convert_interface", P2(TYPE, TYPE), R1(POINTER)) // Check whether an interface type may be converted to a // non-interface type. DEF_GO_RUNTIME(CHECK_INTERFACE_TYPE, "__go_check_interface_type", P3(TYPE, TYPE, TYPE), R0()) // Return whether we can convert an interface type to a type. DEF_GO_RUNTIME(IFACEI2TP, "runtime.ifaceI2Tp", P2(TYPE, TYPE), R1(BOOL)) // Get the type descriptor of an empty interface. DEF_GO_RUNTIME(EFACETYPE, "runtime.efacetype", P1(EFACE), R1(TYPE)) // Get the type descriptor of a non-empty interface. DEF_GO_RUNTIME(IFACETYPE, "runtime.ifacetype", P1(IFACE), R1(TYPE)) // Compare two type descriptors for equality. DEF_GO_RUNTIME(IFACETYPEEQ, "runtime.ifacetypeeq", P2(TYPE, TYPE), R1(BOOL)) // Compare two empty interface values. DEF_GO_RUNTIME(EMPTY_INTERFACE_COMPARE, "__go_empty_interface_compare", P2(EFACE, EFACE), R1(INT)) // Compare an empty interface value to a non-interface value. DEF_GO_RUNTIME(EMPTY_INTERFACE_VALUE_COMPARE, "__go_empty_interface_value_compare", P3(EFACE, TYPE, POINTER), R1(INT)) // Compare two non-empty interface values. DEF_GO_RUNTIME(INTERFACE_COMPARE, "__go_interface_compare", P2(IFACE, IFACE), R1(INT)) // Compare a non-empty interface value to a non-interface value. DEF_GO_RUNTIME(INTERFACE_VALUE_COMPARE, "__go_interface_value_compare", P3(IFACE, TYPE, POINTER), R1(INT)) // Compare a non-empty interface value to an interface value. DEF_GO_RUNTIME(INTERFACE_EMPTY_COMPARE, "__go_interface_empty_compare", P2(IFACE, EFACE), R1(INT)) // Print a string (for print/println). DEF_GO_RUNTIME(PRINT_STRING, "__go_print_string", P1(STRING), R0()) // Print a uint64 (for print/println). DEF_GO_RUNTIME(PRINT_UINT64, "__go_print_uint64", P1(UINT64), R0()) // Print a int64 (for print/println). DEF_GO_RUNTIME(PRINT_INT64, "__go_print_int64", P1(INT64), R0()) // Print a float64 (for print/println). DEF_GO_RUNTIME(PRINT_DOUBLE, "__go_print_double", P1(FLOAT64), R0()) // Print a complex128 (for print/println). DEF_GO_RUNTIME(PRINT_COMPLEX, "__go_print_complex", P1(COMPLEX128), R0()) // Print a bool (for print/println). DEF_GO_RUNTIME(PRINT_BOOL, "__go_print_bool", P1(BOOL), R0()) // Print a pointer/map/channel/function (for print/println). DEF_GO_RUNTIME(PRINT_POINTER, "__go_print_pointer", P1(POINTER), R0()) // Print an empty interface (for print/println). DEF_GO_RUNTIME(PRINT_EMPTY_INTERFACE, "__go_print_empty_interface", P1(EFACE), R0()) // Print a non-empty interface (for print/println). DEF_GO_RUNTIME(PRINT_INTERFACE, "__go_print_interface", P1(IFACE), R0()) // Print a slice (for print/println). DEF_GO_RUNTIME(PRINT_SLICE, "__go_print_slice", P1(SLICE), R0()) // Print a space (for println). DEF_GO_RUNTIME(PRINT_SPACE, "__go_print_space", P0(), R0()) // Print a newline (for println). DEF_GO_RUNTIME(PRINT_NL, "__go_print_nl", P0(), R0()) // Remove helper macros. #undef ABFT6 #undef ABFT2 #undef P0 #undef P1 #undef P2 #undef P3 #undef P4 #undef P5 #undef P6 #undef R0 #undef R1 #undef R2