// Logic for the environmental context information during compilation // (variable bindings, code sections, etc.) #include #include #include "cordhelpers.h" #include "environment.h" #include "stdlib/datatypes.h" #include "stdlib/tables.h" #include "stdlib/text.h" #include "stdlib/util.h" #include "typecheck.h" type_t *TEXT_TYPE = NULL; type_t *RANGE_TYPE = NULL; public type_t *THREAD_TYPE = NULL; env_t *new_compilation_unit(CORD *libname) { env_t *env = new(env_t); env->code = new(compilation_unit_t); env->types = new(Table_t); env->globals = new(Table_t); env->locals = new(Table_t, .fallback=env->globals); env->imports = new(Table_t); if (!TEXT_TYPE) TEXT_TYPE = Type(TextType, .env=namespace_env(env, "Text")); struct { const char *name; binding_t binding; } global_vars[] = { {"say", {.code="say", .type=Type( FunctionType, .args=new(arg_t, .name="text", .type=TEXT_TYPE, .next=new(arg_t, .name="newline", .type=Type(BoolType), .default_val=FakeAST(Bool, true))), .ret=Type(VoidType))}}, {"ask", {.code="ask", .type=Type( FunctionType, .args=new(arg_t, .name="prompt", .type=TEXT_TYPE, .next=new(arg_t, .name="bold", .type=Type(BoolType), .default_val=FakeAST(Bool, true), .next=new(arg_t, .name="force_tty", .type=Type(BoolType), .default_val=FakeAST(Bool, true)))), .ret=TEXT_TYPE)}}, {"exit", {.code="tomo_exit", .type=Type(FunctionType, .args=new( arg_t, .name="message", .type=Type(OptionalType, .type=Type(TextType)), .default_val=FakeAST(Null, .type=new(type_ast_t, .tag=VarTypeAST, .__data.VarTypeAST.name="Text")), .next=new(arg_t, .name="code", .type=Type(IntType, .bits=TYPE_IBITS32), .default_val=FakeAST(Int, .bits=IBITS32, .str="1"))), .ret=Type(AbortType))}}, {"fail", {.code="fail", .type=Type(FunctionType, .args=new(arg_t, .name="message", .type=Type(CStringType)), .ret=Type(AbortType))}}, {"sleep", {.code="sleep_num", .type=Type(FunctionType, .args=new(arg_t, .name="seconds", .type=Type(NumType, .bits=TYPE_NBITS64)), .ret=Type(VoidType))}}, {"USE_COLOR", {.code="USE_COLOR", .type=Type(BoolType)}}, }; for (size_t i = 0; i < sizeof(global_vars)/sizeof(global_vars[0]); i++) { binding_t *b = new(binding_t); *b = global_vars[i].binding; Table$str_set(env->globals, global_vars[i].name, b); } typedef struct { const char *name, *code, *type_str; } ns_entry_t; { env_t *range_env = namespace_env(env, "Range"); RANGE_TYPE = Type( StructType, .name="Range", .env=range_env, .fields=new(arg_t, .name="first", .type=INT_TYPE, .next=new(arg_t, .name="last", .type=INT_TYPE, .next=new(arg_t, .name="step", .type=INT_TYPE, .default_val=FakeAST(Int, .str="1"))))); } { env_t *thread_env = namespace_env(env, "Thread"); THREAD_TYPE = Type(StructType, .name="Thread", .env=thread_env, .opaque=true); } struct { const char *name; type_t *type; CORD typename; CORD struct_val; Array_t namespace; } global_types[] = { {"Void", Type(VoidType), "Void_t", "Void$info", {}}, {"Memory", Type(MemoryType), "Memory_t", "Memory$info", {}}, {"Bool", Type(BoolType), "Bool_t", "Bool$info", TypedArray(ns_entry_t, {"from_text", "Bool$from_text", "func(text:Text)->Bool?"}, {"random", "Bool$random", "func(p=0.5)->Bool"}, )}, {"Byte", Type(ByteType), "Byte_t", "Byte$info", TypedArray(ns_entry_t, {"max", "Byte$max", "Byte"}, {"min", "Byte$min", "Byte"}, {"random", "Byte$random", "func(min=Byte.min, max=Byte.max)->Byte"}, )}, {"Int", Type(BigIntType), "Int_t", "Int$info", TypedArray(ns_entry_t, {"abs", "Int$abs", "func(x:Int)->Int"}, {"bit_and", "Int$bit_and", "func(x:Int,y:Int)->Int"}, {"bit_or", "Int$bit_or", "func(x:Int,y:Int)->Int"}, {"bit_xor", "Int$bit_xor", "func(x:Int,y:Int)->Int"}, {"clamped", "Int$clamped", "func(x:Int,low:Int,high:Int)->Int"}, {"divided_by", "Int$divided_by", "func(x:Int,y:Int)->Int"}, {"format", "Int$format", "func(i:Int, digits=0)->Text"}, {"from_text", "Int$from_text", "func(text:Text)->Int?"}, {"hex", "Int$hex", "func(i:Int, digits=0, uppercase=yes, prefix=yes)->Text"}, {"is_prime", "Int$is_prime", "func(x:Int,reps=50)->Bool"}, {"left_shifted", "Int$left_shifted", "func(x:Int,y:Int)->Int"}, {"minus", "Int$minus", "func(x:Int,y:Int)->Int"}, {"modulo", "Int$modulo", "func(x:Int,y:Int)->Int"}, {"modulo1", "Int$modulo1", "func(x:Int,y:Int)->Int"}, {"negated", "Int$negated", "func(x:Int)->Int"}, {"negative", "Int$negative", "func(x:Int)->Int"}, {"next_prime", "Int$next_prime", "func(x:Int)->Int"}, {"octal", "Int$octal", "func(i:Int, digits=0, prefix=yes)->Text"}, {"plus", "Int$plus", "func(x:Int,y:Int)->Int"}, {"power", "Int$power", "func(base:Int,exponent:Int)->Int"}, {"prev_prime", "Int$prev_prime", "func(x:Int)->Int"}, {"random", "Int$random", "func(min:Int, max:Int)->Int"}, {"right_shifted", "Int$right_shifted", "func(x:Int,y:Int)->Int"}, {"sqrt", "Int$sqrt", "func(x:Int)->Int"}, {"times", "Int$times", "func(x:Int,y:Int)->Int"}, {"to", "Int$to", "func(from:Int,to:Int)->Range"}, )}, {"Int64", Type(IntType, .bits=TYPE_IBITS64), "Int64_t", "Int64$info", TypedArray(ns_entry_t, {"abs", "labs", "func(i:Int64)->Int64"}, {"bits", "Int64$bits", "func(x:Int64)->[Bool]"}, {"clamped", "Int64$clamped", "func(x:Int64,low:Int64,high:Int64)->Int64"}, {"divided_by", "Int64$divided_by", "func(x:Int64,y:Int64)->Int64"}, {"format", "Int64$format", "func(i:Int64, digits=0)->Text"}, {"from_text", "Int64$from_text", "func(text:Text)->Int64?"}, {"hex", "Int64$hex", "func(i:Int64, digits=0, uppercase=yes, prefix=yes)->Text"}, {"max", "Int64$max", "Int64"}, {"min", "Int64$min", "Int64"}, {"modulo", "Int64$modulo", "func(x:Int64,y:Int64)->Int64"}, {"modulo1", "Int64$modulo1", "func(x:Int64,y:Int64)->Int64"}, {"octal", "Int64$octal", "func(i:Int64, digits=0, prefix=yes)->Text"}, {"to", "Int64$to", "func(from:Int64,to:Int64)->Range"}, // Must be defined after min/max: {"random", "Int64$random", "func(min=Int64.min, max=Int64.max)->Int64"}, )}, {"Int32", Type(IntType, .bits=TYPE_IBITS32), "Int32_t", "Int32$info", TypedArray(ns_entry_t, {"abs", "abs", "func(i:Int32)->Int32"}, {"bits", "Int32$bits", "func(x:Int32)->[Bool]"}, {"clamped", "Int32$clamped", "func(x:Int32,low:Int32,high:Int32)->Int32"}, {"divided_by", "Int32$divided_by", "func(x:Int32,y:Int32)->Int32"}, {"format", "Int32$format", "func(i:Int32, digits=0)->Text"}, {"from_text", "Int32$from_text", "func(text:Text)->Int32?"}, {"hex", "Int32$hex", "func(i:Int32, digits=0, uppercase=yes, prefix=yes)->Text"}, {"max", "Int32$max", "Int32"}, {"min", "Int32$min", "Int32"}, {"modulo", "Int32$modulo", "func(x:Int32,y:Int32)->Int32"}, {"modulo1", "Int32$modulo1", "func(x:Int32,y:Int32)->Int32"}, {"octal", "Int32$octal", "func(i:Int32, digits=0, prefix=yes)->Text"}, {"to", "Int32$to", "func(from:Int32,to:Int32)->Range"}, // Must be defined after min/max: {"random", "Int32$random", "func(min=Int32.min, max=Int32.max)->Int32"}, )}, {"Int16", Type(IntType, .bits=TYPE_IBITS16), "Int16_t", "Int16$info", TypedArray(ns_entry_t, {"abs", "abs", "func(i:Int16)->Int16"}, {"bits", "Int16$bits", "func(x:Int16)->[Bool]"}, {"clamped", "Int16$clamped", "func(x:Int16,low:Int16,high:Int16)->Int16"}, {"divided_by", "Int16$divided_by", "func(x:Int16,y:Int16)->Int16"}, {"format", "Int16$format", "func(i:Int16, digits=0)->Text"}, {"from_text", "Int16$from_text", "func(text:Text)->Int16?"}, {"hex", "Int16$hex", "func(i:Int16, digits=0, uppercase=yes, prefix=yes)->Text"}, {"max", "Int16$max", "Int16"}, {"min", "Int16$min", "Int16"}, {"modulo", "Int16$modulo", "func(x:Int16,y:Int16)->Int16"}, {"modulo1", "Int16$modulo1", "func(x:Int16,y:Int16)->Int16"}, {"octal", "Int16$octal", "func(i:Int16, digits=0, prefix=yes)->Text"}, {"to", "Int16$to", "func(from:Int16,to:Int16)->Range"}, // Must be defined after min/max: {"random", "Int16$random", "func(min=Int16.min, max=Int16.max)->Int16"}, )}, {"Int8", Type(IntType, .bits=TYPE_IBITS8), "Int8_t", "Int8$info", TypedArray(ns_entry_t, {"abs", "abs", "func(i:Int8)->Int8"}, {"bits", "Int8$bits", "func(x:Int8)->[Bool]"}, {"clamped", "Int8$clamped", "func(x:Int8,low:Int8,high:Int8)->Int8"}, {"divided_by", "Int8$divided_by", "func(x:Int8,y:Int8)->Int8"}, {"format", "Int8$format", "func(i:Int8, digits=0)->Text"}, {"from_text", "Int8$from_text", "func(text:Text)->Int8?"}, {"hex", "Int8$hex", "func(i:Int8, digits=0, uppercase=yes, prefix=yes)->Text"}, {"max", "Int8$max", "Int8"}, {"min", "Int8$min", "Int8"}, {"modulo", "Int8$modulo", "func(x:Int8,y:Int8)->Int8"}, {"modulo1", "Int8$modulo1", "func(x:Int8,y:Int8)->Int8"}, {"octal", "Int8$octal", "func(i:Int8, digits=0, prefix=yes)->Text"}, {"to", "Int8$to", "func(from:Int8,to:Int8)->Range"}, // Must be defined after min/max: {"random", "Int8$random", "func(min=Int8.min, max=Int8.max)->Int8"}, )}, #define C(name) {#name, "M_"#name, "Num"} #define F(name) {#name, #name, "func(n:Num)->Num"} #define F2(name) {#name, #name, "func(x:Num, y:Num)->Num"} {"Num", Type(NumType, .bits=TYPE_NBITS64), "Num_t", "Num$info", TypedArray(ns_entry_t, {"near", "Num$near", "func(x:Num, y:Num, ratio=1e-9, min_epsilon=1e-9)->Bool"}, {"clamped", "Num$clamped", "func(x:Num,low:Num,high:Num)->Num"}, {"format", "Num$format", "func(n:Num, precision=0)->Text"}, {"scientific", "Num$scientific", "func(n:Num, precision=0)->Text"}, {"nan", "Num$nan", "func(tag=\"\")->Num"}, {"isinf", "Num$isinf", "func(n:Num)->Bool"}, {"isfinite", "Num$isfinite", "func(n:Num)->Bool"}, {"isnan", "Num$isnan", "func(n:Num)->Bool"}, C(2_SQRTPI), C(E), C(PI_2), C(2_PI), C(1_PI), C(LN10), C(LN2), C(LOG2E), C(PI), C(PI_4), C(SQRT2), C(SQRT1_2), {"INF", "(Num_t)(INFINITY)", "Num"}, {"TAU", "(Num_t)(2.*M_PI)", "Num"}, {"random", "Num$random", "func()->Num"}, {"mix", "Num$mix", "func(amount:Num, x:Num, y:Num)->Num"}, {"from_text", "Num$from_text", "func(text:Text)->Num?"}, {"abs", "fabs", "func(n:Num)->Num"}, F(acos), F(acosh), F(asin), F(asinh), F(atan), F(atanh), F(cbrt), F(ceil), F(cos), F(cosh), F(erf), F(erfc), F(exp), F(exp2), F(expm1), F(floor), F(j0), F(j1), F(log), F(log10), F(log1p), F(log2), F(logb), F(rint), F(round), F(significand), F(sin), F(sinh), F(sqrt), F(tan), F(tanh), F(tgamma), F(trunc), F(y0), F(y1), F2(atan2), F2(copysign), F2(fdim), F2(hypot), F2(nextafter), )}, #undef F2 #undef F #undef C #define C(name) {#name, "(Num32_t)(M_"#name")", "Num32"} #define F(name) {#name, #name"f", "func(n:Num32)->Num32"} #define F2(name) {#name, #name"f", "func(x:Num32, y:Num32)->Num32"} {"Num32", Type(NumType, .bits=TYPE_NBITS32), "Num32_t", "Num32$info", TypedArray(ns_entry_t, {"near", "Num32$near", "func(x:Num32, y:Num32, ratio=1e-9f32, min_epsilon=1e-9f32)->Bool"}, {"clamped", "Num32$clamped", "func(x:Num32,low:Num32,high:Num32)->Num32"}, {"format", "Num32$format", "func(n:Num32, precision=0)->Text"}, {"scientific", "Num32$scientific", "func(n:Num32, precision=0)->Text"}, {"nan", "Num32$nan", "func(tag=\"\")->Num32"}, {"isinf", "Num32$isinf", "func(n:Num32)->Bool"}, {"isfinite", "Num32$isfinite", "func(n:Num32)->Bool"}, {"isnan", "Num32$isnan", "func(n:Num32)->Bool"}, C(2_SQRTPI), C(E), C(PI_2), C(2_PI), C(1_PI), C(LN10), C(LN2), C(LOG2E), C(PI), C(PI_4), C(SQRT2), C(SQRT1_2), {"INF", "(Num32_t)(INFINITY)", "Num32"}, {"TAU", "(Num32_t)(2.f*M_PI)", "Num32"}, {"random", "Num32$random", "func()->Num32"}, {"mix", "Num32$mix", "func(amount:Num32, x:Num32, y:Num32)->Num32"}, {"from_text", "Num32$from_text", "func(text:Text)->Num32?"}, {"abs", "fabsf", "func(n:Num32)->Num32"}, F(acos), F(acosh), F(asin), F(asinh), F(atan), F(atanh), F(cbrt), F(ceil), F(cos), F(cosh), F(erf), F(erfc), F(exp), F(exp2), F(expm1), F(floor), F(j0), F(j1), F(log), F(log10), F(log1p), F(log2), F(logb), F(rint), F(round), F(significand), F(sin), F(sinh), F(sqrt), F(tan), F(tanh), F(tgamma), F(trunc), F(y0), F(y1), F2(atan2), F2(copysign), F2(fdim), F2(hypot), F2(nextafter), F2(pow), F2(remainder), )}, {"CString", Type(CStringType), "char*", "CString$info", TypedArray(ns_entry_t, {"as_text", "CString$as_text_simple", "func(str:CString)->Text"}, )}, #undef F2 #undef F #undef C {"Range", RANGE_TYPE, "Range_t", "Range", TypedArray(ns_entry_t, {"reversed", "Range$reversed", "func(range:Range)->Range"}, {"by", "Range$by", "func(range:Range, step:Int)->Range"}, )}, {"Pattern", Type(TextType, .lang="Pattern", .env=namespace_env(env, "Pattern")), "Pattern_t", "Pattern$info", TypedArray(ns_entry_t, {"escape_int", "Int$value_as_text", "func(i:Int)->Pattern"}, {"escape_text", "Pattern$escape_text", "func(text:Text)->Pattern"}, )}, {"Path", Type(TextType, .lang="Path", .env=namespace_env(env, "Path")), "Text_t", "Text$info", TypedArray(ns_entry_t, {"append", "Path$append", "func(path:Path, text:Text, permissions=0o644[32])"}, {"append_bytes", "Path$append_bytes", "func(path:Path, bytes:[Byte], permissions=0o644[32])"}, {"base_name", "Path$base_name", "func(path:Path)->Text"}, {"by_line", "Path$by_line", "func(path:Path)->(func()->Text?)?"}, {"children", "Path$children", "func(path:Path, include_hidden=no)->[Path]"}, {"create_directory", "Path$create_directory", "func(path:Path, permissions=0o755[32])"}, {"escape_int", "Int$value_as_text", "func(i:Int)->Path"}, {"escape_path", "Path$escape_path", "func(path:Path)->Path"}, {"escape_text", "Path$escape_text", "func(text:Text)->Path"}, {"exists", "Path$exists", "func(path:Path)->Bool"}, {"extension", "Path$extension", "func(path:Path, full=yes)->Text"}, {"files", "Path$children", "func(path:Path, include_hidden=no)->[Path]"}, {"is_directory", "Path$is_directory", "func(path:Path, follow_symlinks=yes)->Bool"}, {"is_file", "Path$is_file", "func(path:Path, follow_symlinks=yes)->Bool"}, {"is_pipe", "Path$is_pipe", "func(path:Path, follow_symlinks=yes)->Bool"}, {"is_socket", "Path$is_socket", "func(path:Path, follow_symlinks=yes)->Bool"}, {"is_symlink", "Path$is_symlink", "func(path:Path)->Bool"}, {"parent", "Path$parent", "func(path:Path)->Path"}, {"read", "Path$read", "func(path:Path)->Text?"}, {"read_bytes", "Path$read_bytes", "func(path:Path)->[Byte]?"}, {"relative", "Path$relative", "func(path:Path, relative_to=(./))->Path"}, {"remove", "Path$remove", "func(path:Path, ignore_missing=no)"}, {"resolved", "Path$resolved", "func(path:Path, relative_to=(./))->Path"}, {"subdirectories", "Path$children", "func(path:Path, include_hidden=no)->[Path]"}, {"unique_directory", "Path$unique_directory", "func(path:Path)->Path"}, {"write", "Path$write", "func(path:Path, text:Text, permissions=0o644[32])"}, {"write_bytes", "Path$write_bytes", "func(path:Path, bytes:[Byte], permissions=0o644[32])"}, {"write_unique", "Path$write_unique", "func(path:Path, text:Text)->Path"}, {"write_unique_bytes", "Path$write_unique_bytes", "func(path:Path, bytes:[Byte])->Path"}, // Text methods: {"ends_with", "Text$ends_with", "func(path:Path, suffix:Text)->Bool"}, {"has", "Text$has", "func(path:Path, pattern:Pattern)->Bool"}, {"matches", "Text$matches", "func(path:Path, pattern:Pattern)->[Text]?"}, {"replace", "Text$replace", "func(path:Path, pattern:Pattern, replacement:Text, backref=$/\\/, recursive=yes)->Path"}, {"replace_all", "Text$replace_all", "func(path:Path, replacements:{Pattern:Text}, backref=$/\\/, recursive=yes)->Path"}, {"starts_with", "Text$starts_with", "func(path:Path, prefix:Text)->Bool"}, )}, {"Shell", Type(TextType, .lang="Shell", .env=namespace_env(env, "Shell")), "Shell_t", "Shell$info", TypedArray(ns_entry_t, {"by_line", "Shell$by_line", "func(command:Shell)->(func()->Text?)?"}, {"escape_int", "Int$value_as_text", "func(i:Int)->Shell"}, {"escape_text", "Shell$escape_text", "func(text:Text)->Shell"}, {"escape_text_array", "Shell$escape_text_array", "func(texts:[Text])->Shell"}, {"run_bytes", "Shell$run", "func(command:Shell)->[Byte]?"}, {"run", "Shell$run", "func(command:Shell)->Text?"}, )}, {"Text", TEXT_TYPE, "Text_t", "Text$info", TypedArray(ns_entry_t, {"as_c_string", "Text$as_c_string", "func(text:Text)->CString"}, {"codepoint_names", "Text$codepoint_names", "func(text:Text)->[Text]"}, {"ends_with", "Text$ends_with", "func(text:Text, suffix:Text)->Bool"}, {"find", "Text$find", "func(text:Text, pattern:Pattern, start=1, length=!&Int64)->Int"}, {"find_all", "Text$find_all", "func(text:Text, pattern:Pattern)->[Text]"}, {"from_bytes", "Text$from_bytes", "func(bytes:[Byte])->Text"}, {"from_c_string", "Text$from_str", "func(str:CString)->Text"}, {"from_codepoint_names", "Text$from_codepoint_names", "func(codepoint_names:[Text])->Text"}, {"from_codepoints", "Text$from_codepoints", "func(codepoints:[Int32])->Text"}, {"without_escaping", "Path$cleanup", "func(text:Text)->Path"}, {"has", "Text$has", "func(text:Text, pattern:Pattern)->Bool"}, {"join", "Text$join", "func(glue:Text, pieces:[Text])->Text"}, {"lines", "Text$lines", "func(text:Text)->[Text]"}, {"lower", "Text$lower", "func(text:Text)->Text"}, {"map", "Text$map", "func(text:Text, pattern:Pattern, fn:func(text:Text)->Text)->Text"}, {"matches", "Text$matches", "func(text:Text, pattern:Pattern)->[Text]?"}, {"quoted", "Text$quoted", "func(text:Text, color=no)->Text"}, {"repeat", "Text$repeat", "func(text:Text, count:Int)->Text"}, {"replace", "Text$replace", "func(text:Text, pattern:Pattern, replacement:Text, backref=$/\\/, recursive=yes)->Text"}, {"replace_all", "Text$replace_all", "func(text:Text, replacements:{Pattern:Text}, backref=$/\\/, recursive=yes)->Text"}, {"slice", "Text$slice", "func(text:Text, from=1, to=-1)->Text"}, {"split", "Text$split", "func(text:Text, pattern=$Pattern'')->[Text]"}, {"starts_with", "Text$starts_with", "func(text:Text, prefix:Text)->Bool"}, {"title", "Text$title", "func(text:Text)->Text"}, {"trim", "Text$trim", "func(text:Text, pattern=$/{whitespace}/, trim_left=yes, trim_right=yes)->Text"}, {"upper", "Text$upper", "func(text:Text)->Text"}, {"utf32_codepoints", "Text$utf32_codepoints", "func(text:Text)->[Int32]"}, {"utf8_bytes", "Text$utf8_bytes", "func(text:Text)->[Byte]"}, )}, {"Thread", THREAD_TYPE, "pthread_t*", "Thread", TypedArray(ns_entry_t, {"new", "Thread$new", "func(fn:func())->Thread"}, {"cancel", "Thread$cancel", "func(thread:Thread)"}, {"join", "Thread$join", "func(thread:Thread)"}, {"detach", "Thread$detach", "func(thread:Thread)"}, )}, }; for (size_t i = 0; i < sizeof(global_types)/sizeof(global_types[0]); i++) { env_t *ns_env = NULL; switch (global_types[i].type->tag) { case TextType: ns_env = Match(global_types[i].type, TextType)->env; break; case StructType: ns_env = Match(global_types[i].type, StructType)->env; break; case EnumType: ns_env = Match(global_types[i].type, EnumType)->env; break; default: break; } if (ns_env == NULL) ns_env = namespace_env(env, global_types[i].name); binding_t *binding = new(binding_t, .type=Type(TypeInfoType, .name=global_types[i].name, .type=global_types[i].type, .env=ns_env)); Table$str_set(env->globals, global_types[i].name, binding); Table$str_set(env->types, global_types[i].name, global_types[i].type); } for (size_t i = 0; i < sizeof(global_types)/sizeof(global_types[0]); i++) { binding_t *type_binding = Table$str_get(*env->globals, global_types[i].name); assert(type_binding); env_t *ns_env = Match(type_binding->type, TypeInfoType)->env; for (int64_t j = 0; j < global_types[i].namespace.length; j++) { ns_entry_t *entry = global_types[i].namespace.data + j*global_types[i].namespace.stride; type_t *type = parse_type_string(ns_env, entry->type_str); if (!type) compiler_err(NULL, NULL, NULL, "Couldn't parse type string: %s", entry->type_str); if (type->tag == ClosureType) type = Match(type, ClosureType)->fn; binding_t *b = new(binding_t, .code=entry->code, .type=type); set_binding(ns_env, entry->name, b); } } set_binding(namespace_env(env, "Shell"), "without_escaping", new(binding_t, .type=Type(FunctionType, .args=new(arg_t, .name="text", .type=TEXT_TYPE), .ret=Type(TextType, .lang="Shell", .env=namespace_env(env, "Shell"))), .code="(Shell_t)")); set_binding(namespace_env(env, "Path"), "without_escaping", new(binding_t, .type=Type(FunctionType, .args=new(arg_t, .name="text", .type=TEXT_TYPE), .ret=Type(TextType, .lang="Path", .env=namespace_env(env, "Path"))), .code="Path$cleanup")); set_binding(namespace_env(env, "Pattern"), "without_escaping", new(binding_t, .type=Type(FunctionType, .args=new(arg_t, .name="text", .type=TEXT_TYPE), .ret=Type(TextType, .lang="Pattern", .env=namespace_env(env, "Pattern"))), .code="(Pattern_t)")); env_t *lib_env = fresh_scope(env); lib_env->libname = libname; return lib_env; } CORD namespace_prefix(CORD *libname, namespace_t *ns) { CORD prefix = CORD_EMPTY; for (; ns; ns = ns->parent) prefix = CORD_all(ns->name, "$", prefix); if (libname && *libname) prefix = CORD_all(*libname, "$", prefix); return prefix; } env_t *load_module_env(env_t *env, ast_t *ast) { const char *name = ast->file->filename; env_t *cached = Table$str_get(*env->imports, name); if (cached) return cached; env_t *module_env = fresh_scope(env); module_env->code = new(compilation_unit_t); module_env->namespace = new(namespace_t, .name=file_base_name(name)); module_env->namespace_bindings = module_env->locals; Table$str_set(module_env->imports, name, module_env); ast_list_t *statements = Match(ast, Block)->statements; visit_topologically(statements, (Closure_t){.fn=(void*)prebind_statement, .userdata=module_env}); visit_topologically(statements, (Closure_t){.fn=(void*)bind_statement, .userdata=module_env}); return module_env; } env_t *namespace_scope(env_t *env) { env_t *scope = new(env_t); *scope = *env; scope->locals = new(Table_t, .fallback=env->namespace_bindings ? env->namespace_bindings : env->globals); return scope; } env_t *fresh_scope(env_t *env) { env_t *scope = new(env_t); *scope = *env; scope->locals = new(Table_t, .fallback=env->locals); return scope; } env_t *for_scope(env_t *env, ast_t *ast) { auto for_ = Match(ast, For); type_t *iter_t = get_type(env, for_->iter); env_t *scope = fresh_scope(env); if (iter_t == RANGE_TYPE) { if (for_->vars) { if (for_->vars->next) code_err(for_->vars->next->ast, "This is too many variables for this loop"); const char *var = Match(for_->vars->ast, Var)->name; set_binding(scope, var, new(binding_t, .type=INT_TYPE, .code=CORD_cat("$", var))); } return scope; } switch (iter_t->tag) { case ArrayType: { type_t *item_t = Match(iter_t, ArrayType)->item_type; const char *vars[2] = {}; int64_t num_vars = 0; for (ast_list_t *var = for_->vars; var; var = var->next) { if (num_vars >= 2) code_err(var->ast, "This is too many variables for this loop"); vars[num_vars++] = Match(var->ast, Var)->name; } if (num_vars == 1) { set_binding(scope, vars[0], new(binding_t, .type=item_t, .code=CORD_cat("$", vars[0]))); } else if (num_vars == 2) { set_binding(scope, vars[0], new(binding_t, .type=INT_TYPE, .code=CORD_cat("$", vars[0]))); set_binding(scope, vars[1], new(binding_t, .type=item_t, .code=CORD_cat("$", vars[1]))); } return scope; } case SetType: { if (for_->vars) { if (for_->vars->next) code_err(for_->vars->next->ast, "This is too many variables for this loop"); type_t *item_type = Match(iter_t, SetType)->item_type; const char *name = Match(for_->vars->ast, Var)->name; set_binding(scope, name, new(binding_t, .type=item_type, .code=CORD_cat("$", name))); } return scope; } case TableType: { const char *vars[2] = {}; int64_t num_vars = 0; for (ast_list_t *var = for_->vars; var; var = var->next) { if (num_vars >= 2) code_err(var->ast, "This is too many variables for this loop"); vars[num_vars++] = Match(var->ast, Var)->name; } type_t *key_t = Match(iter_t, TableType)->key_type; if (num_vars == 1) { set_binding(scope, vars[0], new(binding_t, .type=key_t, .code=CORD_cat("$", vars[0]))); } else if (num_vars == 2) { set_binding(scope, vars[0], new(binding_t, .type=key_t, .code=CORD_cat("$", vars[0]))); type_t *value_t = Match(iter_t, TableType)->value_type; set_binding(scope, vars[1], new(binding_t, .type=value_t, .code=CORD_cat("$", vars[1]))); } return scope; } case BigIntType: { if (for_->vars) { if (for_->vars->next) code_err(for_->vars->next->ast, "This is too many variables for this loop"); const char *var = Match(for_->vars->ast, Var)->name; set_binding(scope, var, new(binding_t, .type=INT_TYPE, .code=CORD_cat("$", var))); } return scope; } case FunctionType: case ClosureType: { auto fn = iter_t->tag == ClosureType ? Match(Match(iter_t, ClosureType)->fn, FunctionType) : Match(iter_t, FunctionType); if (fn->ret->tag != OptionalType) code_err(for_->iter, "Iterator functions must return an optional type, not %T", fn->ret); if (for_->vars) { if (for_->vars->next) code_err(for_->vars->next->ast, "This is too many variables for this loop"); const char *var = Match(for_->vars->ast, Var)->name; set_binding(scope, var, new(binding_t, .type=Match(fn->ret, OptionalType)->type, .code=CORD_cat("$", var))); } return scope; } default: code_err(for_->iter, "Iteration is not implemented for type: %T", iter_t); } } env_t *namespace_env(env_t *env, const char *namespace_name) { binding_t *b = get_binding(env, namespace_name); if (b) return Match(b->type, TypeInfoType)->env; env_t *ns_env = new(env_t); *ns_env = *env; ns_env->locals = new(Table_t, .fallback=env->locals); ns_env->namespace = new(namespace_t, .name=namespace_name, .parent=env->namespace); ns_env->namespace_bindings = ns_env->locals; return ns_env; } binding_t *get_binding(env_t *env, const char *name) { binding_t *b = Table$str_get(*env->locals, name); if (!b) { for (fn_ctx_t *fn_ctx = env->fn_ctx; fn_ctx; fn_ctx = fn_ctx->parent) { if (!fn_ctx->closure_scope) continue; b = Table$str_get(*fn_ctx->closure_scope, name); if (b) { Table$str_set(env->fn_ctx->closed_vars, name, b); binding_t *b2 = new(binding_t, .type=b->type, .code=CORD_all("userdata->", name)); Table$str_set(env->locals, name, b2); return b2; } } } return b; } binding_t *get_namespace_binding(env_t *env, ast_t *self, const char *name) { type_t *self_type = get_type(env, self); if (!self_type) code_err(self, "I couldn't get this type"); type_t *cls_type = value_type(self_type); switch (cls_type->tag) { case ArrayType: return NULL; case TableType: return NULL; case CStringType: case BoolType: case IntType: case BigIntType: case NumType: { binding_t *b = get_binding(env, CORD_to_const_char_star(type_to_cord(cls_type))); assert(b); return get_binding(Match(b->type, TypeInfoType)->env, name); } case TextType: { auto text = Match(cls_type, TextType); env_t *text_env = text->env ? text->env : namespace_env(env, text->lang ? text->lang : "Text"); assert(text_env); return get_binding(text_env, name); } case StructType: { auto struct_ = Match(cls_type, StructType); return struct_->env ? get_binding(struct_->env, name) : NULL; } case EnumType: { auto enum_ = Match(cls_type, EnumType); return enum_->env ? get_binding(enum_->env, name) : NULL; } case TypeInfoType: { auto info = Match(cls_type, TypeInfoType); return info->env ? get_binding(info->env, name) : NULL; } default: break; } return NULL; } binding_t *get_lang_escape_function(env_t *env, const char *lang_name, type_t *type_to_escape) { if (!lang_name) lang_name = "Text"; binding_t *typeinfo = get_binding(env, lang_name); assert(typeinfo && typeinfo->type->tag == TypeInfoType); env_t *lang_env = Match(typeinfo->type, TypeInfoType)->env; for (int64_t i = 1; i <= Table$length(*lang_env->locals); i++) { struct {const char *name; binding_t *b; } *entry = Table$entry(*lang_env->locals, i); if (entry->b->type->tag != FunctionType) continue; if (!(streq(entry->name, "escape") || strncmp(entry->name, "escape_", strlen("escape_")) == 0)) continue; auto fn = Match(entry->b->type, FunctionType); if (!fn->args || fn->args->next) continue; if (fn->ret->tag != TextType || !streq(Match(fn->ret, TextType)->lang, lang_name)) continue; if (!can_promote(type_to_escape, fn->args->type)) continue; return entry->b; } return NULL; } void set_binding(env_t *env, const char *name, binding_t *binding) { if (name && binding) Table$str_set(env->locals, name, binding); } __attribute__((format(printf, 4, 5))) _Noreturn void compiler_err(file_t *f, const char *start, const char *end, const char *fmt, ...) { if (isatty(STDERR_FILENO) && !getenv("NO_COLOR")) fputs("\x1b[31;7;1m", stderr); if (f && start && end) fprintf(stderr, "%s:%ld.%ld: ", f->relative_filename, get_line_number(f, start), get_line_column(f, start)); va_list args; va_start(args, fmt); vfprintf(stderr, fmt, args); va_end(args); if (isatty(STDERR_FILENO) && !getenv("NO_COLOR")) fputs(" \x1b[m", stderr); fputs("\n\n", stderr); if (f && start && end) highlight_error(f, start, end, "\x1b[31;1m", 2, isatty(STDERR_FILENO) && !getenv("NO_COLOR")); if (getenv("TOMO_STACKTRACE")) print_stack_trace(stderr, 1, 3); raise(SIGABRT); exit(1); } // vim: ts=4 sw=0 et cino=L2,l1,(0,W4,m1,\:0