/* * Copyright (c) 2017 Calvin Rose * * 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 use, copy, modify, merge, publish, distribute, sublicense, and/or * sell copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS * IN THE SOFTWARE. */ #include #include int dst_stl_push(DstArgs args) { if (args.n != 2) return dst_throw(args, "expected 2 arguments"); if (!dst_checktype(args.v[0], DST_ARRAY)) return dst_throw(args, "expected array"); dst_array_push(dst_unwrap_array(args.v[0]), args.v[1]); return dst_return(args, args.v[0]); } int dst_stl_exit(DstArgs args) { int32_t exitcode = 0; if (args.n > 0) { exitcode = dst_hash(args.v[0]); } exit(exitcode); return 0; } int dst_stl_print(DstArgs args) { int32_t i; for (i = 0; i < args.n; ++i) { int32_t j, len; const uint8_t *vstr = dst_to_string(args.v[i]); len = dst_string_length(vstr); for (j = 0; j < len; ++j) { putc(vstr[j], stdout); } } putc('\n', stdout); return 0; } int dst_stl_describe(DstArgs args) { int32_t i; for (i = 0; i < args.n; ++i) { int32_t j, len; const uint8_t *vstr = dst_description(args.v[i]); len = dst_string_length(vstr); for (j = 0; j < len; ++j) { putc(vstr[j], stdout); } } putc('\n', stdout); return 0; } int dst_stl_string(DstArgs args) { int32_t i; DstBuffer b; dst_buffer_init(&b, 0); for (i = 0; i < args.n; ++i) { int32_t len; const uint8_t *str = dst_to_string(args.v[i]); len = dst_string_length(str); dst_buffer_push_bytes(&b, str, len); } *args.ret = dst_stringv(b.data, b.count); dst_buffer_deinit(&b); return 0; } int dst_stl_buffer_to_string(DstArgs args) { DstBuffer *b; if (args.n != 1) return dst_throw(args, "expected 1 argument"); if (!dst_checktype(args.v[0], DST_BUFFER)) return dst_throw(args, "expected buffer"); b = dst_unwrap_buffer(args.v[0]); return dst_return(args, dst_wrap_string(dst_string(b->data, b->count))); } int dst_cfun_tuple(DstArgs args) { return dst_return(args, dst_wrap_tuple(dst_tuple_n(args.v, args.n))); } int dst_cfun_array(DstArgs args) { DstArray *array = dst_array(args.n); array->count = args.n; memcpy(array->data, args.v, args.n * sizeof(Dst)); return dst_return(args, dst_wrap_array(array)); } int dst_cfun_table(DstArgs args) { int32_t i; DstTable *table = dst_table(args.n >> 1); if (args.n & 1) return dst_throw(args, "expected even number of arguments"); for (i = 0; i < args.n; i += 2) { dst_table_put(table, args.v[i], args.v[i + 1]); } return dst_return(args, dst_wrap_table(table)); } int dst_cfun_struct(DstArgs args) { int32_t i; DstKV *st = dst_struct_begin(args.n >> 1); if (args.n & 1) return dst_throw(args, "expected even number of arguments"); for (i = 0; i < args.n; i += 2) { dst_struct_put(st, args.v[i], args.v[i + 1]); } return dst_return(args, dst_wrap_struct(dst_struct_end(st))); } int dst_stl_fiber(DstArgs args) { DstFiber *fiber; if (args.n < 1) return dst_throw(args, "expected at least one argument"); if (!dst_checktype(args.v[0], DST_FUNCTION)) return dst_throw(args, "expected a function"); fiber = dst_fiber(64); dst_fiber_funcframe(fiber, dst_unwrap_function(args.v[0])); fiber->parent = dst_vm_fiber; return dst_return(args, dst_wrap_fiber(fiber)); } int dst_stl_buffer(DstArgs args) { DstBuffer *buffer = dst_buffer(10); int32_t i; for (i = 0; i < args.n; ++i) { const uint8_t *bytes = dst_to_string(args.v[i]); int32_t len = dst_string_length(bytes); dst_buffer_push_bytes(buffer, bytes, len); } return dst_return(args, dst_wrap_buffer(buffer)); } int dst_stl_gensym(DstArgs args) { if (args.n > 1) return dst_throw(args, "expected one argument"); if (args.n == 0) { return dst_return(args, dst_wrap_symbol(dst_symbol_gen(NULL, 0))); } else { const uint8_t *s = dst_to_string(args.v[0]); return dst_return(args, dst_wrap_symbol(dst_symbol_gen(s, dst_string_length(s)))); } } int dst_stl_length(DstArgs args) { if (args.n != 1) return dst_throw(args, "expected at least 1 argument"); return dst_return(args, dst_wrap_integer(dst_length(args.v[0]))); } int dst_stl_get(DstArgs args) { int32_t i; Dst ds; if (args.n < 1) return dst_throw(args, "expected at least 1 argument"); ds = args.v[0]; for (i = 1; i < args.n; i++) { ds = dst_get(ds, args.v[i]); if (dst_checktype(ds, DST_NIL)) break; } return dst_return(args, ds); } int dst_stl_status(DstArgs args) { const char *status; if (args.n != 1) return dst_throw(args, "expected 1 argument"); if (!dst_checktype(args.v[0], DST_FIBER)) return dst_throw(args, "expected fiber"); switch(dst_unwrap_fiber(args.v[0])->status) { case DST_FIBER_PENDING: status = "pending"; break; case DST_FIBER_NEW: status = "new"; break; case DST_FIBER_ALIVE: status = "alive"; break; case DST_FIBER_DEAD: status = "dead"; break; case DST_FIBER_ERROR: status = "error"; break; } return dst_return(args, dst_cstringv(status)); } int dst_stl_put(DstArgs args) { Dst ds, key, value; DstArgs subargs = args; if (args.n < 3) return dst_throw(args, "expected at least 3 arguments"); subargs.n -= 2; if (dst_stl_get(subargs)) return 1; ds = *args.ret; key = args.v[args.n - 2]; value = args.v[args.n - 1]; dst_put(ds, key, value); return 0; } int dst_stl_gccollect(DstArgs args) { (void) args; dst_collect(); return 0; } int dst_stl_type(DstArgs args) { if (args.n != 1) return dst_throw(args, "expected 1 argument"); if (dst_checktype(args.v[0], DST_ABSTRACT)) { return dst_return(args, dst_cstringv(dst_abstract_type(dst_unwrap_abstract(args.v[0]))->name)); } else { return dst_return(args, dst_cstringv(dst_type_names[dst_type(args.v[0])])); } } int dst_stl_next(DstArgs args) { Dst ds; const DstKV *kv; if (args.n != 2) return dst_throw(args, "expected 2 arguments"); ds = args.v[0]; if (dst_checktype(ds, DST_TABLE)) { DstTable *t = dst_unwrap_table(ds); kv = dst_checktype(args.v[1], DST_NIL) ? t->data : dst_table_find(t, args.v[1]); } else if (dst_checktype(ds, DST_STRUCT)) { const DstKV *st = dst_unwrap_struct(ds); kv = dst_checktype(args.v[1], DST_NIL) ? st : dst_struct_find(st, args.v[1]); } else { return dst_throw(args, "expected table/struct"); } kv = dst_next(ds, kv); if (kv) { return dst_return(args, kv->key); } return dst_return(args, dst_wrap_nil()); } int dst_stl_hash(DstArgs args) { if (args.n != 1) return dst_throw(args, "expected 1 argument"); return dst_return(args, dst_wrap_integer(dst_hash(args.v[0]))); } Dst dst_stl_env() { Dst ret; DstArgs args; DstTable *module = dst_table(0); ret = dst_wrap_table(module); args.n = 1; args.v = &ret; args.ret = &ret; dst_module_def(module, "native", dst_wrap_cfunction(dst_load_native)); dst_module_def(module, "push", dst_wrap_cfunction(dst_stl_push)); dst_module_def(module, "print", dst_wrap_cfunction(dst_stl_print)); dst_module_def(module, "describe", dst_wrap_cfunction(dst_stl_describe)); dst_module_def(module, "string", dst_wrap_cfunction(dst_stl_string)); dst_module_def(module, "buffer-to-string", dst_wrap_cfunction(dst_stl_buffer_to_string)); dst_module_def(module, "table", dst_wrap_cfunction(dst_cfun_table)); dst_module_def(module, "array", dst_wrap_cfunction(dst_cfun_array)); dst_module_def(module, "tuple", dst_wrap_cfunction(dst_cfun_tuple)); dst_module_def(module, "struct", dst_wrap_cfunction(dst_cfun_struct)); dst_module_def(module, "fiber", dst_wrap_cfunction(dst_stl_fiber)); dst_module_def(module, "status", dst_wrap_cfunction(dst_stl_status)); dst_module_def(module, "buffer", dst_wrap_cfunction(dst_stl_buffer)); dst_module_def(module, "gensym", dst_wrap_cfunction(dst_stl_gensym)); dst_module_def(module, "get", dst_wrap_cfunction(dst_stl_get)); dst_module_def(module, "put", dst_wrap_cfunction(dst_stl_put)); dst_module_def(module, "length", dst_wrap_cfunction(dst_stl_length)); dst_module_def(module, "gccollect", dst_wrap_cfunction(dst_stl_gccollect)); dst_module_def(module, "type", dst_wrap_cfunction(dst_stl_type)); dst_module_def(module, "next", dst_wrap_cfunction(dst_stl_next)); dst_module_def(module, "hash", dst_wrap_cfunction(dst_stl_hash)); dst_module_def(module, "exit", dst_wrap_cfunction(dst_stl_exit)); dst_module_def(module, "parse", dst_wrap_cfunction(dst_parse_cfun)); dst_module_def(module, "compile", dst_wrap_cfunction(dst_compile_cfun)); dst_module_def(module, "asm", dst_wrap_cfunction(dst_asm_cfun)); dst_module_def(module, "disasm", dst_wrap_cfunction(dst_disasm_cfun)); /* Allow references to the environment */ dst_module_def(module, "_env", ret); /*Load auxiliary modules */ dst_io_init(args); dst_math_init(args); return ret; }