typedef struct AstNode AstNode; typedef struct Scope Scope; typedef struct DeclInfo DeclInfo; typedef enum ParseFileError { ParseFile_None, ParseFile_WrongExtension, ParseFile_InvalidFile, ParseFile_EmptyFile, ParseFile_Permission, ParseFile_NotFound, ParseFile_InvalidToken, ParseFile_Count, } ParseFileError; typedef Array AstNodeArray; typedef struct AstFile { i32 id; gbArena arena; Tokenizer tokenizer; Array tokens; isize curr_token_index; Token curr_token; Token prev_token; // previous non-comment // >= 0: In Expression // < 0: In Control Clause // NOTE(bill): Used to prevent type literals in control clauses isize expr_level; bool allow_range; // NOTE(bill): Ranges are only allowed in certain cases AstNodeArray decls; bool is_global_scope; AstNode * curr_proc; isize scope_level; Scope * scope; // NOTE(bill): Created in checker DeclInfo * decl_info; // NOTE(bill): Created in checker // TODO(bill): Error recovery #define PARSER_MAX_FIX_COUNT 6 isize fix_count; TokenPos fix_prev_pos; } AstFile; typedef struct ImportedFile { String path; String rel_path; TokenPos pos; // #import } ImportedFile; typedef struct Parser { String init_fullpath; Array files; Array imports; gbAtomic32 import_index; isize total_token_count; isize total_line_count; gbMutex mutex; } Parser; typedef enum ProcTag { ProcTag_bounds_check = 1<<0, ProcTag_no_bounds_check = 1<<1, ProcTag_require_results = 1<<4, ProcTag_foreign = 1<<10, ProcTag_export = 1<<11, ProcTag_link_name = 1<<12, ProcTag_inline = 1<<13, ProcTag_no_inline = 1<<14, // ProcTag_dll_import = 1<<15, // ProcTag_dll_export = 1<<16, } ProcTag; typedef enum ProcCallingConvention { ProcCC_Odin = 0, ProcCC_C = 1, ProcCC_Std = 2, ProcCC_Fast = 3, ProcCC_Invalid, } ProcCallingConvention; typedef enum VarDeclFlag { VarDeclFlag_using = 1<<0, VarDeclFlag_immutable = 1<<1, VarDeclFlag_thread_local = 1<<2, } VarDeclFlag; typedef enum StmtStateFlag { StmtStateFlag_bounds_check = 1<<0, StmtStateFlag_no_bounds_check = 1<<1, } StmtStateFlag; typedef enum FieldFlag { FieldFlag_ellipsis = 1<<0, FieldFlag_using = 1<<1, FieldFlag_no_alias = 1<<2, FieldFlag_immutable = 1<<3, FieldFlag_Signature = FieldFlag_ellipsis|FieldFlag_using|FieldFlag_no_alias|FieldFlag_immutable, } FieldListTag; typedef enum StmtAllowFlag { StmtAllowFlag_None = 0, StmtAllowFlag_In = 1<<0, StmtAllowFlag_Label = 1<<1, } StmtAllowFlag; AstNodeArray make_ast_node_array(AstFile *f) { AstNodeArray a; // array_init(&a, gb_arena_allocator(&f->arena)); array_init(&a, heap_allocator()); return a; } // NOTE(bill): This massive define is so it is possible to create a discriminated union (and extra debug info) // for the AstNode. I personally prefer discriminated unions over subtype polymorphism as I can preallocate // all the nodes and even memcpy in a different kind of node #define AST_NODE_KINDS \ AST_NODE_KIND(Ident, "identifier", Token) \ AST_NODE_KIND(Implicit, "implicit", Token) \ AST_NODE_KIND(BasicLit, "basic literal", Token) \ AST_NODE_KIND(BasicDirective, "basic directive", struct { \ Token token; \ String name; \ }) \ AST_NODE_KIND(Ellipsis, "ellipsis", struct { \ Token token; \ AstNode *expr; \ }) \ AST_NODE_KIND(ProcLit, "procedure literal", struct { \ AstNode *type; \ AstNode *body; \ u64 tags; \ AstNode *foreign_library; \ String foreign_name; \ String link_name; \ }) \ AST_NODE_KIND(CompoundLit, "compound literal", struct { \ AstNode *type; \ AstNodeArray elems; \ Token open, close; \ }) \ AST_NODE_KIND(Alias, "alias", struct { \ Token token; \ AstNode *expr; \ }) \ AST_NODE_KIND(_ExprBegin, "", i32) \ AST_NODE_KIND(BadExpr, "bad expression", struct { Token begin, end; }) \ AST_NODE_KIND(TagExpr, "tag expression", struct { Token token, name; AstNode *expr; }) \ AST_NODE_KIND(RunExpr, "run expression", struct { Token token, name; AstNode *expr; }) \ AST_NODE_KIND(UnaryExpr, "unary expression", struct { Token op; AstNode *expr; }) \ AST_NODE_KIND(BinaryExpr, "binary expression", struct { Token op; AstNode *left, *right; } ) \ AST_NODE_KIND(ParenExpr, "parentheses expression", struct { AstNode *expr; Token open, close; }) \ AST_NODE_KIND(SelectorExpr, "selector expression", struct { Token token; AstNode *expr, *selector; }) \ AST_NODE_KIND(IndexExpr, "index expression", struct { AstNode *expr, *index; Token open, close; }) \ AST_NODE_KIND(DerefExpr, "dereference expression", struct { Token op; AstNode *expr; }) \ AST_NODE_KIND(SliceExpr, "slice expression", struct { \ AstNode *expr; \ Token open, close; \ Token interval0; \ Token interval1; \ bool index3; \ AstNode *low, *high, *max; \ }) \ AST_NODE_KIND(CallExpr, "call expression", struct { \ AstNode * proc; \ AstNodeArray args; \ Token open; \ Token close; \ Token ellipsis; \ }) \ AST_NODE_KIND(MacroCallExpr, "macro call expression", struct { \ AstNode * macro; \ Token bang; \ AstNodeArray args; \ Token open; \ Token close; \ }) \ AST_NODE_KIND(FieldValue, "field value", struct { Token eq; AstNode *field, *value; }) \ AST_NODE_KIND(TernaryExpr, "ternary expression", struct { AstNode *cond, *x, *y; }) \ AST_NODE_KIND(TypeAssertion, "type assertion", struct { AstNode *expr; Token dot; AstNode *type; }) \ AST_NODE_KIND(_ExprEnd, "", i32) \ AST_NODE_KIND(_StmtBegin, "", i32) \ AST_NODE_KIND(BadStmt, "bad statement", struct { Token begin, end; }) \ AST_NODE_KIND(EmptyStmt, "empty statement", struct { Token token; }) \ AST_NODE_KIND(ExprStmt, "expression statement", struct { AstNode *expr; } ) \ AST_NODE_KIND(TagStmt, "tag statement", struct { \ Token token; \ Token name; \ AstNode *stmt; \ }) \ AST_NODE_KIND(AssignStmt, "assign statement", struct { \ Token op; \ AstNodeArray lhs, rhs; \ }) \ AST_NODE_KIND(IncDecStmt, "increment decrement statement", struct { \ Token op; \ AstNode *expr; \ }) \ AST_NODE_KIND(_ComplexStmtBegin, "", i32) \ AST_NODE_KIND(BlockStmt, "block statement", struct { \ AstNodeArray stmts; \ Token open, close; \ }) \ AST_NODE_KIND(IfStmt, "if statement", struct { \ Token token; \ AstNode *init; \ AstNode *cond; \ AstNode *body; \ AstNode *else_stmt; \ }) \ AST_NODE_KIND(WhenStmt, "when statement", struct { \ Token token; \ AstNode *cond; \ AstNode *body; \ AstNode *else_stmt; \ }) \ AST_NODE_KIND(ReturnStmt, "return statement", struct { \ Token token; \ AstNodeArray results; \ }) \ AST_NODE_KIND(ForStmt, "for statement", struct { \ Token token; \ AstNode *label; \ AstNode *init; \ AstNode *cond; \ AstNode *post; \ AstNode *body; \ }) \ AST_NODE_KIND(RangeStmt, "range statement", struct { \ Token token; \ AstNode *label; \ AstNode *value; \ AstNode *index; \ Token in_token; \ AstNode *expr; \ AstNode *body; \ }) \ AST_NODE_KIND(CaseClause, "case clause", struct { \ Token token; \ AstNodeArray list; \ AstNodeArray stmts; \ }) \ AST_NODE_KIND(MatchStmt, "match statement", struct { \ Token token; \ AstNode *label; \ AstNode *init; \ AstNode *tag; \ AstNode *body; \ }) \ AST_NODE_KIND(TypeMatchStmt, "type match statement", struct { \ Token token; \ AstNode *label; \ AstNode *tag; \ AstNode *body; \ }) \ AST_NODE_KIND(DeferStmt, "defer statement", struct { Token token; AstNode *stmt; }) \ AST_NODE_KIND(BranchStmt, "branch statement", struct { Token token; AstNode *label; }) \ AST_NODE_KIND(UsingStmt, "using statement", struct { \ Token token; \ AstNodeArray list; \ }) \ AST_NODE_KIND(AsmOperand, "assembly operand", struct { \ Token string; \ AstNode *operand; \ }) \ AST_NODE_KIND(AsmStmt, "assembly statement", struct { \ Token token; \ bool is_volatile; \ Token open, close; \ Token code_string; \ AstNode *output_list; \ AstNode *input_list; \ AstNode *clobber_list; \ isize output_count, input_count, clobber_count; \ }) \ AST_NODE_KIND(PushAllocator, "push_allocator statement", struct { \ Token token; \ AstNode *expr; \ AstNode *body; \ }) \ AST_NODE_KIND(PushContext, "push_context statement", struct { \ Token token; \ AstNode *expr; \ AstNode *body; \ }) \ AST_NODE_KIND(_ComplexStmtEnd, "", i32) \ AST_NODE_KIND(_StmtEnd, "", i32) \ AST_NODE_KIND(_DeclBegin, "", i32) \ AST_NODE_KIND(BadDecl, "bad declaration", struct { Token begin, end; }) \ AST_NODE_KIND(ValueDecl, "value declaration", struct { \ bool is_var; \ AstNodeArray names; \ AstNode * type; \ AstNodeArray values; \ u32 flags; \ }) \ AST_NODE_KIND(ImportDecl, "import declaration", struct { \ Token token; \ bool is_import; \ Token relpath; \ String fullpath; \ Token import_name; \ AstNode *cond; \ AstNode *note; \ }) \ AST_NODE_KIND(ForeignLibrary, "foreign library", struct { \ Token token, filepath; \ Token library_name; \ String base_dir; \ AstNode *cond; \ bool is_system; \ }) \ AST_NODE_KIND(Label, "label", struct { \ Token token; \ AstNode *name; \ }) \ AST_NODE_KIND(_DeclEnd, "", i32) \ AST_NODE_KIND(Field, "field", struct { \ AstNodeArray names; \ AstNode * type; \ u32 flags; \ }) \ AST_NODE_KIND(FieldList, "field list", struct { \ Token token; \ AstNodeArray list; \ }) \ AST_NODE_KIND(UnionField, "union field", struct { \ AstNode *name; \ AstNode *list; \ }) \ AST_NODE_KIND(_TypeBegin, "", i32) \ AST_NODE_KIND(HelperType, "type", struct { \ Token token; \ AstNode *type; \ }) \ AST_NODE_KIND(ProcType, "procedure type", struct { \ Token token; \ AstNode *params; \ AstNode *results; \ u64 tags; \ ProcCallingConvention calling_convention; \ }) \ AST_NODE_KIND(PointerType, "pointer type", struct { \ Token token; \ AstNode *type; \ }) \ AST_NODE_KIND(AtomicType, "atomic type", struct { \ Token token; \ AstNode *type; \ }) \ AST_NODE_KIND(ArrayType, "array type", struct { \ Token token; \ AstNode *count; \ AstNode *elem; \ }) \ AST_NODE_KIND(DynamicArrayType, "dynamic array type", struct { \ Token token; \ AstNode *elem; \ }) \ AST_NODE_KIND(VectorType, "vector type", struct { \ Token token; \ AstNode *count; \ AstNode *elem; \ }) \ AST_NODE_KIND(StructType, "struct type", struct { \ Token token; \ AstNodeArray fields; \ isize field_count; \ bool is_packed; \ bool is_ordered; \ AstNode *align; \ }) \ AST_NODE_KIND(UnionType, "union type", struct { \ Token token; \ AstNodeArray fields; \ isize field_count; \ AstNodeArray variants; \ }) \ AST_NODE_KIND(RawUnionType, "raw union type", struct { \ Token token; \ AstNodeArray fields; \ isize field_count; \ }) \ AST_NODE_KIND(EnumType, "enum type", struct { \ Token token; \ AstNode *base_type; \ AstNodeArray fields; /* FieldValue */ \ }) \ AST_NODE_KIND(BitFieldType, "bit field type", struct { \ Token token; \ AstNodeArray fields; /* FieldValue with : */ \ AstNode *align; \ }) \ AST_NODE_KIND(MapType, "map type", struct { \ Token token; \ AstNode *count; \ AstNode *key; \ AstNode *value; \ }) \ AST_NODE_KIND(_TypeEnd, "", i32) typedef enum AstNodeKind { AstNode_Invalid, #define AST_NODE_KIND(_kind_name_, ...) GB_JOIN2(AstNode_, _kind_name_), AST_NODE_KINDS #undef AST_NODE_KIND AstNode_Count, } AstNodeKind; String const ast_node_strings[] = { {cast(u8 *)"invalid node", gb_size_of("invalid node")}, #define AST_NODE_KIND(_kind_name_, name, ...) {cast(u8 *)name, gb_size_of(name)-1}, AST_NODE_KINDS #undef AST_NODE_KIND }; #define AST_NODE_KIND(_kind_name_, name, ...) typedef __VA_ARGS__ GB_JOIN2(AstNode, _kind_name_); AST_NODE_KINDS #undef AST_NODE_KIND typedef struct AstNode { AstNodeKind kind; u32 stmt_state_flags; union { #define AST_NODE_KIND(_kind_name_, name, ...) GB_JOIN2(AstNode, _kind_name_) _kind_name_; AST_NODE_KINDS #undef AST_NODE_KIND }; } AstNode; #define ast_node(n_, Kind_, node_) GB_JOIN2(AstNode, Kind_) *n_ = &(node_)->Kind_; GB_ASSERT((node_)->kind == GB_JOIN2(AstNode_, Kind_)) #define case_ast_node(n_, Kind_, node_) case GB_JOIN2(AstNode_, Kind_): { ast_node(n_, Kind_, node_); #ifndef case_end #define case_end } break; #endif gb_inline bool is_ast_node_expr(AstNode *node) { return gb_is_between(node->kind, AstNode__ExprBegin+1, AstNode__ExprEnd-1); } gb_inline bool is_ast_node_stmt(AstNode *node) { return gb_is_between(node->kind, AstNode__StmtBegin+1, AstNode__StmtEnd-1); } gb_inline bool is_ast_node_complex_stmt(AstNode *node) { return gb_is_between(node->kind, AstNode__ComplexStmtBegin+1, AstNode__ComplexStmtEnd-1); } gb_inline bool is_ast_node_decl(AstNode *node) { return gb_is_between(node->kind, AstNode__DeclBegin+1, AstNode__DeclEnd-1); } gb_inline bool is_ast_node_type(AstNode *node) { return gb_is_between(node->kind, AstNode__TypeBegin+1, AstNode__TypeEnd-1); } gb_inline bool is_ast_node_when_stmt(AstNode *node) { return node->kind == AstNode_WhenStmt; } Token ast_node_token(AstNode *node) { switch (node->kind) { case AstNode_Ident: return node->Ident; case AstNode_Implicit: return node->Implicit; case AstNode_BasicLit: return node->BasicLit; case AstNode_BasicDirective: return node->BasicDirective.token; case AstNode_ProcLit: return ast_node_token(node->ProcLit.type); case AstNode_CompoundLit: if (node->CompoundLit.type != NULL) { return ast_node_token(node->CompoundLit.type); } return node->CompoundLit.open; case AstNode_Alias: return node->Alias.token; case AstNode_TagExpr: return node->TagExpr.token; case AstNode_RunExpr: return node->RunExpr.token; case AstNode_BadExpr: return node->BadExpr.begin; case AstNode_UnaryExpr: return node->UnaryExpr.op; case AstNode_BinaryExpr: return ast_node_token(node->BinaryExpr.left); case AstNode_ParenExpr: return node->ParenExpr.open; case AstNode_CallExpr: return ast_node_token(node->CallExpr.proc); case AstNode_MacroCallExpr: return ast_node_token(node->MacroCallExpr.macro); case AstNode_SelectorExpr: if (node->SelectorExpr.selector != NULL) { return ast_node_token(node->SelectorExpr.selector); } return node->SelectorExpr.token; case AstNode_IndexExpr: return node->IndexExpr.open; case AstNode_SliceExpr: return node->SliceExpr.open; case AstNode_Ellipsis: return node->Ellipsis.token; case AstNode_FieldValue: return node->FieldValue.eq; case AstNode_DerefExpr: return node->DerefExpr.op; case AstNode_TernaryExpr: return ast_node_token(node->TernaryExpr.cond); case AstNode_TypeAssertion: return ast_node_token(node->TypeAssertion.expr); case AstNode_BadStmt: return node->BadStmt.begin; case AstNode_EmptyStmt: return node->EmptyStmt.token; case AstNode_ExprStmt: return ast_node_token(node->ExprStmt.expr); case AstNode_TagStmt: return node->TagStmt.token; case AstNode_AssignStmt: return node->AssignStmt.op; case AstNode_IncDecStmt: return ast_node_token(node->IncDecStmt.expr); case AstNode_BlockStmt: return node->BlockStmt.open; case AstNode_IfStmt: return node->IfStmt.token; case AstNode_WhenStmt: return node->WhenStmt.token; case AstNode_ReturnStmt: return node->ReturnStmt.token; case AstNode_ForStmt: return node->ForStmt.token; case AstNode_RangeStmt: return node->RangeStmt.token; case AstNode_CaseClause: return node->CaseClause.token; case AstNode_MatchStmt: return node->MatchStmt.token; case AstNode_TypeMatchStmt: return node->TypeMatchStmt.token; case AstNode_DeferStmt: return node->DeferStmt.token; case AstNode_BranchStmt: return node->BranchStmt.token; case AstNode_UsingStmt: return node->UsingStmt.token; case AstNode_AsmStmt: return node->AsmStmt.token; case AstNode_PushAllocator: return node->PushAllocator.token; case AstNode_PushContext: return node->PushContext.token; case AstNode_BadDecl: return node->BadDecl.begin; case AstNode_ValueDecl: return ast_node_token(node->ValueDecl.names[0]); case AstNode_ImportDecl: return node->ImportDecl.token; case AstNode_ForeignLibrary: return node->ForeignLibrary.token; case AstNode_Label: return node->Label.token; case AstNode_Field: if (node->Field.names.count > 0) { return ast_node_token(node->Field.names[0]); } return ast_node_token(node->Field.type); case AstNode_FieldList: return node->FieldList.token; case AstNode_UnionField: return ast_node_token(node->UnionField.name); case AstNode_HelperType: return node->HelperType.token; case AstNode_ProcType: return node->ProcType.token; case AstNode_PointerType: return node->PointerType.token; case AstNode_AtomicType: return node->AtomicType.token; case AstNode_ArrayType: return node->ArrayType.token; case AstNode_DynamicArrayType: return node->DynamicArrayType.token; case AstNode_VectorType: return node->VectorType.token; case AstNode_StructType: return node->StructType.token; case AstNode_UnionType: return node->UnionType.token; case AstNode_RawUnionType: return node->RawUnionType.token; case AstNode_EnumType: return node->EnumType.token; case AstNode_BitFieldType: return node->BitFieldType.token; case AstNode_MapType: return node->MapType.token; } return empty_token; } AstNode *clone_ast_node(gbAllocator a, AstNode *node); AstNodeArray clone_ast_node_array(gbAllocator a, AstNodeArray array) { AstNodeArray result = {}; if (array.count > 0) { array_init_count(&result, a, array.count); for_array(i, array) { result[i] = clone_ast_node(a, array[i]); } } return result; } AstNode *clone_ast_node(gbAllocator a, AstNode *node) { if (node == NULL) { return NULL; } AstNode *n = gb_alloc_item(a, AstNode); gb_memmove(n, node, gb_size_of(AstNode)); switch (n->kind) { case AstNode_Ident: break; case AstNode_Implicit: break; case AstNode_BasicLit: break; case AstNode_BasicDirective: break; case AstNode_Ellipsis: n->Ellipsis.expr = clone_ast_node(a, n->Ellipsis.expr); break; case AstNode_ProcLit: n->ProcLit.type = clone_ast_node(a, n->ProcLit.type); n->ProcLit.body = clone_ast_node(a, n->ProcLit.body); n->ProcLit.foreign_library = clone_ast_node(a, n->ProcLit.foreign_library); break; case AstNode_CompoundLit: n->CompoundLit.type = clone_ast_node(a, n->CompoundLit.type); n->CompoundLit.elems = clone_ast_node_array(a, n->CompoundLit.elems); break; case AstNode_Alias: n->Alias.expr = clone_ast_node(a, n->Alias.expr); break; case AstNode_BadExpr: break; case AstNode_TagExpr: n->TagExpr.expr = clone_ast_node(a, n->TagExpr.expr); break; case AstNode_RunExpr: n->RunExpr.expr = clone_ast_node(a, n->RunExpr.expr); break; case AstNode_UnaryExpr: n->RunExpr.expr = clone_ast_node(a, n->RunExpr.expr); break; case AstNode_BinaryExpr: n->BinaryExpr.left = clone_ast_node(a, n->BinaryExpr.left); n->BinaryExpr.right = clone_ast_node(a, n->BinaryExpr.right); break; case AstNode_ParenExpr: n->ParenExpr.expr = clone_ast_node(a, n->ParenExpr.expr); break; case AstNode_SelectorExpr: n->SelectorExpr.expr = clone_ast_node(a, n->SelectorExpr.expr); n->SelectorExpr.selector = clone_ast_node(a, n->SelectorExpr.selector); break; case AstNode_IndexExpr: n->IndexExpr.expr = clone_ast_node(a, n->IndexExpr.expr); n->IndexExpr.index = clone_ast_node(a, n->IndexExpr.index); break; case AstNode_DerefExpr: n->DerefExpr.expr = clone_ast_node(a, n->DerefExpr.expr); break; case AstNode_SliceExpr: n->SliceExpr.expr = clone_ast_node(a, n->SliceExpr.expr); n->SliceExpr.low = clone_ast_node(a, n->SliceExpr.low); n->SliceExpr.high = clone_ast_node(a, n->SliceExpr.high); n->SliceExpr.max = clone_ast_node(a, n->SliceExpr.max); break; case AstNode_CallExpr: n->CallExpr.proc = clone_ast_node(a, n->CallExpr.proc); n->CallExpr.args = clone_ast_node_array(a, n->CallExpr.args); break; case AstNode_MacroCallExpr: n->MacroCallExpr.macro = clone_ast_node(a, n->MacroCallExpr.macro); n->MacroCallExpr.args = clone_ast_node_array(a, n->MacroCallExpr.args); break; case AstNode_FieldValue: n->FieldValue.field = clone_ast_node(a, n->FieldValue.field); n->FieldValue.value = clone_ast_node(a, n->FieldValue.value); break; case AstNode_TernaryExpr: n->TernaryExpr.cond = clone_ast_node(a, n->TernaryExpr.cond); n->TernaryExpr.x = clone_ast_node(a, n->TernaryExpr.x); n->TernaryExpr.y = clone_ast_node(a, n->TernaryExpr.cond); break; case AstNode_TypeAssertion: n->TypeAssertion.expr = clone_ast_node(a, n->TypeAssertion.expr); n->TypeAssertion.type = clone_ast_node(a, n->TypeAssertion.type); break; case AstNode_BadStmt: break; case AstNode_EmptyStmt: break; case AstNode_ExprStmt: n->ExprStmt.expr = clone_ast_node(a, n->ExprStmt.expr); break; case AstNode_TagStmt: n->TagStmt.stmt = clone_ast_node(a, n->TagStmt.stmt); break; case AstNode_AssignStmt: n->AssignStmt.lhs = clone_ast_node_array(a, n->AssignStmt.lhs); n->AssignStmt.rhs = clone_ast_node_array(a, n->AssignStmt.rhs); break; case AstNode_IncDecStmt: n->IncDecStmt.expr = clone_ast_node(a, n->IncDecStmt.expr); break; case AstNode_BlockStmt: n->BlockStmt.stmts = clone_ast_node_array(a, n->BlockStmt.stmts); break; case AstNode_IfStmt: n->IfStmt.init = clone_ast_node(a, n->IfStmt.init); n->IfStmt.cond = clone_ast_node(a, n->IfStmt.cond); n->IfStmt.body = clone_ast_node(a, n->IfStmt.body); n->IfStmt.else_stmt = clone_ast_node(a, n->IfStmt.else_stmt); break; case AstNode_WhenStmt: n->WhenStmt.cond = clone_ast_node(a, n->WhenStmt.cond); n->WhenStmt.body = clone_ast_node(a, n->WhenStmt.body); n->WhenStmt.else_stmt = clone_ast_node(a, n->WhenStmt.else_stmt); break; case AstNode_ReturnStmt: n->ReturnStmt.results = clone_ast_node_array(a, n->ReturnStmt.results); break; case AstNode_ForStmt: n->ForStmt.label = clone_ast_node(a, n->ForStmt.label); n->ForStmt.init = clone_ast_node(a, n->ForStmt.init); n->ForStmt.cond = clone_ast_node(a, n->ForStmt.cond); n->ForStmt.post = clone_ast_node(a, n->ForStmt.post); n->ForStmt.body = clone_ast_node(a, n->ForStmt.body); break; case AstNode_RangeStmt: n->RangeStmt.label = clone_ast_node(a, n->RangeStmt.label); n->RangeStmt.value = clone_ast_node(a, n->RangeStmt.value); n->RangeStmt.index = clone_ast_node(a, n->RangeStmt.index); n->RangeStmt.expr = clone_ast_node(a, n->RangeStmt.expr); n->RangeStmt.body = clone_ast_node(a, n->RangeStmt.body); break; case AstNode_CaseClause: n->CaseClause.list = clone_ast_node_array(a, n->CaseClause.list); n->CaseClause.stmts = clone_ast_node_array(a, n->CaseClause.stmts); break; case AstNode_MatchStmt: n->MatchStmt.label = clone_ast_node(a, n->MatchStmt.label); n->MatchStmt.init = clone_ast_node(a, n->MatchStmt.init); n->MatchStmt.tag = clone_ast_node(a, n->MatchStmt.tag); n->MatchStmt.body = clone_ast_node(a, n->MatchStmt.body); break; case AstNode_TypeMatchStmt: n->TypeMatchStmt.label = clone_ast_node(a, n->TypeMatchStmt.label); n->TypeMatchStmt.tag = clone_ast_node(a, n->TypeMatchStmt.tag); n->TypeMatchStmt.body = clone_ast_node(a, n->TypeMatchStmt.body); break; case AstNode_DeferStmt: n->DeferStmt.stmt = clone_ast_node(a, n->DeferStmt.stmt); break; case AstNode_BranchStmt: n->BranchStmt.label = clone_ast_node(a, n->BranchStmt.label); break; case AstNode_UsingStmt: n->UsingStmt.list = clone_ast_node_array(a, n->UsingStmt.list); break; case AstNode_AsmOperand: n->AsmOperand.operand = clone_ast_node(a, n->AsmOperand.operand); break; case AstNode_AsmStmt: n->AsmStmt.output_list = clone_ast_node(a, n->AsmStmt.output_list); n->AsmStmt.input_list = clone_ast_node(a, n->AsmStmt.input_list); n->AsmStmt.clobber_list = clone_ast_node(a, n->AsmStmt.clobber_list); break; case AstNode_PushAllocator: n->PushAllocator.expr = clone_ast_node(a, n->PushAllocator.expr); n->PushAllocator.body = clone_ast_node(a, n->PushAllocator.body); break; case AstNode_PushContext: n->PushContext.expr = clone_ast_node(a, n->PushContext.expr); n->PushContext.body = clone_ast_node(a, n->PushContext.body); break; case AstNode_BadDecl: break; case AstNode_ValueDecl: n->ValueDecl.names = clone_ast_node_array(a, n->ValueDecl.names); n->ValueDecl.type = clone_ast_node(a, n->ValueDecl.type); n->ValueDecl.values = clone_ast_node_array(a, n->ValueDecl.values); break; case AstNode_ImportDecl: n->ImportDecl.cond = clone_ast_node(a, n->ImportDecl.cond); n->ImportDecl.note = clone_ast_node(a, n->ImportDecl.note); break; case AstNode_ForeignLibrary: n->ForeignLibrary.cond = clone_ast_node(a, n->ForeignLibrary.cond); break; case AstNode_Label: n->Label.name = clone_ast_node(a, n->Label.name); break; case AstNode_Field: n->Field.names = clone_ast_node_array(a, n->Field.names); n->Field.type = clone_ast_node(a, n->Field.type); break; case AstNode_FieldList: n->FieldList.list = clone_ast_node_array(a, n->FieldList.list); break; case AstNode_UnionField: n->UnionField.name = clone_ast_node(a, n->UnionField.name); n->UnionField.list = clone_ast_node(a, n->UnionField.list); break; case AstNode_HelperType: n->HelperType.type = clone_ast_node(a, n->HelperType.type); break; case AstNode_ProcType: break; case AstNode_PointerType: n->PointerType.type = clone_ast_node(a, n->PointerType.type); break; case AstNode_AtomicType: n->AtomicType.type = clone_ast_node(a, n->AtomicType.type); break; case AstNode_ArrayType: n->ArrayType.count = clone_ast_node(a, n->ArrayType.count); n->ArrayType.elem = clone_ast_node(a, n->ArrayType.elem); break; case AstNode_DynamicArrayType: n->DynamicArrayType.elem = clone_ast_node(a, n->DynamicArrayType.elem); break; case AstNode_VectorType: n->VectorType.count = clone_ast_node(a, n->VectorType.count); n->VectorType.elem = clone_ast_node(a, n->VectorType.elem); break; case AstNode_StructType: n->StructType.fields = clone_ast_node_array(a, n->StructType.fields); break; case AstNode_UnionType: n->UnionType.fields = clone_ast_node_array(a, n->UnionType.fields); n->UnionType.variants = clone_ast_node_array(a, n->UnionType.variants); break; case AstNode_RawUnionType: n->RawUnionType.fields = clone_ast_node_array(a, n->RawUnionType.fields); break; case AstNode_EnumType: n->EnumType.base_type = clone_ast_node(a, n->EnumType.base_type); n->EnumType.fields = clone_ast_node_array(a, n->EnumType.fields); break; case AstNode_BitFieldType: n->BitFieldType.fields = clone_ast_node_array(a, n->BitFieldType.fields); n->BitFieldType.align = clone_ast_node(a, n->BitFieldType.align); case AstNode_MapType: n->MapType.count = clone_ast_node(a, n->MapType.count); n->MapType.key = clone_ast_node(a, n->MapType.key); n->MapType.value = clone_ast_node(a, n->MapType.value); break; } return n; } void error_node(AstNode *node, char *fmt, ...) { va_list va; va_start(va, fmt); error_va(ast_node_token(node), fmt, va); va_end(va); } void warning_node(AstNode *node, char *fmt, ...) { va_list va; va_start(va, fmt); warning_va(ast_node_token(node), fmt, va); va_end(va); } void syntax_error_node(AstNode *node, char *fmt, ...) { va_list va; va_start(va, fmt); syntax_error_va(ast_node_token(node), fmt, va); va_end(va); } bool ast_node_expect(AstNode *node, AstNodeKind kind) { if (node->kind != kind) { error_node(node, "Expected %.*s, got %.*s", LIT(ast_node_strings[node->kind])); return false; } return true; } // NOTE(bill): And this below is why is I/we need a new language! Discriminated unions are a pain in C/C++ AstNode *make_ast_node(AstFile *f, AstNodeKind kind) { gbArena *arena = &f->arena; if (gb_arena_size_remaining(arena, GB_DEFAULT_MEMORY_ALIGNMENT) <= gb_size_of(AstNode)) { // NOTE(bill): If a syntax error is so bad, just quit! gb_exit(1); } AstNode *node = gb_alloc_item(gb_arena_allocator(arena), AstNode); node->kind = kind; return node; } AstNode *ast_bad_expr(AstFile *f, Token begin, Token end) { AstNode *result = make_ast_node(f, AstNode_BadExpr); result->BadExpr.begin = begin; result->BadExpr.end = end; return result; } AstNode *ast_tag_expr(AstFile *f, Token token, Token name, AstNode *expr) { AstNode *result = make_ast_node(f, AstNode_TagExpr); result->TagExpr.token = token; result->TagExpr.name = name; result->TagExpr.expr = expr; return result; } AstNode *ast_run_expr(AstFile *f, Token token, Token name, AstNode *expr) { AstNode *result = make_ast_node(f, AstNode_RunExpr); result->RunExpr.token = token; result->RunExpr.name = name; result->RunExpr.expr = expr; return result; } AstNode *ast_tag_stmt(AstFile *f, Token token, Token name, AstNode *stmt) { AstNode *result = make_ast_node(f, AstNode_TagStmt); result->TagStmt.token = token; result->TagStmt.name = name; result->TagStmt.stmt = stmt; return result; } AstNode *ast_unary_expr(AstFile *f, Token op, AstNode *expr) { AstNode *result = make_ast_node(f, AstNode_UnaryExpr); result->UnaryExpr.op = op; result->UnaryExpr.expr = expr; return result; } AstNode *ast_binary_expr(AstFile *f, Token op, AstNode *left, AstNode *right) { AstNode *result = make_ast_node(f, AstNode_BinaryExpr); if (left == NULL) { syntax_error(op, "No lhs expression for binary expression `%.*s`", LIT(op.string)); left = ast_bad_expr(f, op, op); } if (right == NULL) { syntax_error(op, "No rhs expression for binary expression `%.*s`", LIT(op.string)); right = ast_bad_expr(f, op, op); } result->BinaryExpr.op = op; result->BinaryExpr.left = left; result->BinaryExpr.right = right; return result; } AstNode *ast_paren_expr(AstFile *f, AstNode *expr, Token open, Token close) { AstNode *result = make_ast_node(f, AstNode_ParenExpr); result->ParenExpr.expr = expr; result->ParenExpr.open = open; result->ParenExpr.close = close; return result; } AstNode *ast_call_expr(AstFile *f, AstNode *proc, AstNodeArray args, Token open, Token close, Token ellipsis) { AstNode *result = make_ast_node(f, AstNode_CallExpr); result->CallExpr.proc = proc; result->CallExpr.args = args; result->CallExpr.open = open; result->CallExpr.close = close; result->CallExpr.ellipsis = ellipsis; return result; } AstNode *ast_macro_call_expr(AstFile *f, AstNode *macro, Token bang, AstNodeArray args, Token open, Token close) { AstNode *result = make_ast_node(f, AstNode_MacroCallExpr); result->MacroCallExpr.macro = macro; result->MacroCallExpr.bang = bang; result->MacroCallExpr.args = args; result->MacroCallExpr.open = open; result->MacroCallExpr.close = close; return result; } AstNode *ast_selector_expr(AstFile *f, Token token, AstNode *expr, AstNode *selector) { AstNode *result = make_ast_node(f, AstNode_SelectorExpr); result->SelectorExpr.expr = expr; result->SelectorExpr.selector = selector; return result; } AstNode *ast_index_expr(AstFile *f, AstNode *expr, AstNode *index, Token open, Token close) { AstNode *result = make_ast_node(f, AstNode_IndexExpr); result->IndexExpr.expr = expr; result->IndexExpr.index = index; result->IndexExpr.open = open; result->IndexExpr.close = close; return result; } AstNode *ast_slice_expr(AstFile *f, AstNode *expr, Token open, Token close, Token interval0, Token interval1, bool index3, AstNode *low, AstNode *high, AstNode *max) { AstNode *result = make_ast_node(f, AstNode_SliceExpr); result->SliceExpr.expr = expr; result->SliceExpr.open = open; result->SliceExpr.close = close; result->SliceExpr.interval0 = interval0; result->SliceExpr.interval1 = interval1; result->SliceExpr.index3 = index3; result->SliceExpr.low = low; result->SliceExpr.high = high; result->SliceExpr.max = max; return result; } AstNode *ast_deref_expr(AstFile *f, AstNode *expr, Token op) { AstNode *result = make_ast_node(f, AstNode_DerefExpr); result->DerefExpr.expr = expr; result->DerefExpr.op = op; return result; } AstNode *ast_ident(AstFile *f, Token token) { AstNode *result = make_ast_node(f, AstNode_Ident); result->Ident = token; return result; } AstNode *ast_implicit(AstFile *f, Token token) { AstNode *result = make_ast_node(f, AstNode_Implicit); result->Implicit = token; return result; } AstNode *ast_basic_lit(AstFile *f, Token basic_lit) { AstNode *result = make_ast_node(f, AstNode_BasicLit); result->BasicLit = basic_lit; return result; } AstNode *ast_basic_directive(AstFile *f, Token token, String name) { AstNode *result = make_ast_node(f, AstNode_BasicDirective); result->BasicDirective.token = token; result->BasicDirective.name = name; return result; } AstNode *ast_ellipsis(AstFile *f, Token token, AstNode *expr) { AstNode *result = make_ast_node(f, AstNode_Ellipsis); result->Ellipsis.token = token; result->Ellipsis.expr = expr; return result; } AstNode *ast_proc_lit(AstFile *f, AstNode *type, AstNode *body, u64 tags, AstNode *foreign_library, String foreign_name, String link_name) { AstNode *result = make_ast_node(f, AstNode_ProcLit); result->ProcLit.type = type; result->ProcLit.body = body; result->ProcLit.tags = tags; result->ProcLit.foreign_library = foreign_library; result->ProcLit.foreign_name = foreign_name; result->ProcLit.link_name = link_name; return result; } AstNode *ast_field_value(AstFile *f, AstNode *field, AstNode *value, Token eq) { AstNode *result = make_ast_node(f, AstNode_FieldValue); result->FieldValue.field = field; result->FieldValue.value = value; result->FieldValue.eq = eq; return result; } AstNode *ast_compound_lit(AstFile *f, AstNode *type, AstNodeArray elems, Token open, Token close) { AstNode *result = make_ast_node(f, AstNode_CompoundLit); result->CompoundLit.type = type; result->CompoundLit.elems = elems; result->CompoundLit.open = open; result->CompoundLit.close = close; return result; } AstNode *ast_alias(AstFile *f, Token token, AstNode *expr) { AstNode *result = make_ast_node(f, AstNode_Alias); result->Alias.token = token; result->Alias.expr = expr; return result; } AstNode *ast_ternary_expr(AstFile *f, AstNode *cond, AstNode *x, AstNode *y) { AstNode *result = make_ast_node(f, AstNode_TernaryExpr); result->TernaryExpr.cond = cond; result->TernaryExpr.x = x; result->TernaryExpr.y = y; return result; } AstNode *ast_type_assertion(AstFile *f, AstNode *expr, Token dot, AstNode *type) { AstNode *result = make_ast_node(f, AstNode_TypeAssertion); result->TypeAssertion.expr = expr; result->TypeAssertion.dot = dot; result->TypeAssertion.type = type; return result; } AstNode *ast_bad_stmt(AstFile *f, Token begin, Token end) { AstNode *result = make_ast_node(f, AstNode_BadStmt); result->BadStmt.begin = begin; result->BadStmt.end = end; return result; } AstNode *ast_empty_stmt(AstFile *f, Token token) { AstNode *result = make_ast_node(f, AstNode_EmptyStmt); result->EmptyStmt.token = token; return result; } AstNode *ast_expr_stmt(AstFile *f, AstNode *expr) { AstNode *result = make_ast_node(f, AstNode_ExprStmt); result->ExprStmt.expr = expr; return result; } AstNode *ast_assign_stmt(AstFile *f, Token op, AstNodeArray lhs, AstNodeArray rhs) { AstNode *result = make_ast_node(f, AstNode_AssignStmt); result->AssignStmt.op = op; result->AssignStmt.lhs = lhs; result->AssignStmt.rhs = rhs; return result; } AstNode *ast_inc_dec_stmt(AstFile *f, Token op, AstNode *expr) { AstNode *result = make_ast_node(f, AstNode_IncDecStmt); result->IncDecStmt.op = op; result->IncDecStmt.expr = expr; return result; } AstNode *ast_block_stmt(AstFile *f, AstNodeArray stmts, Token open, Token close) { AstNode *result = make_ast_node(f, AstNode_BlockStmt); result->BlockStmt.stmts = stmts; result->BlockStmt.open = open; result->BlockStmt.close = close; return result; } AstNode *ast_if_stmt(AstFile *f, Token token, AstNode *init, AstNode *cond, AstNode *body, AstNode *else_stmt) { AstNode *result = make_ast_node(f, AstNode_IfStmt); result->IfStmt.token = token; result->IfStmt.init = init; result->IfStmt.cond = cond; result->IfStmt.body = body; result->IfStmt.else_stmt = else_stmt; return result; } AstNode *ast_when_stmt(AstFile *f, Token token, AstNode *cond, AstNode *body, AstNode *else_stmt) { AstNode *result = make_ast_node(f, AstNode_WhenStmt); result->WhenStmt.token = token; result->WhenStmt.cond = cond; result->WhenStmt.body = body; result->WhenStmt.else_stmt = else_stmt; return result; } AstNode *ast_return_stmt(AstFile *f, Token token, AstNodeArray results) { AstNode *result = make_ast_node(f, AstNode_ReturnStmt); result->ReturnStmt.token = token; result->ReturnStmt.results = results; return result; } AstNode *ast_for_stmt(AstFile *f, Token token, AstNode *init, AstNode *cond, AstNode *post, AstNode *body) { AstNode *result = make_ast_node(f, AstNode_ForStmt); result->ForStmt.token = token; result->ForStmt.init = init; result->ForStmt.cond = cond; result->ForStmt.post = post; result->ForStmt.body = body; return result; } AstNode *ast_range_stmt(AstFile *f, Token token, AstNode *value, AstNode *index, Token in_token, AstNode *expr, AstNode *body) { AstNode *result = make_ast_node(f, AstNode_RangeStmt); result->RangeStmt.token = token; result->RangeStmt.value = value; result->RangeStmt.index = index; result->RangeStmt.in_token = in_token; result->RangeStmt.expr = expr; result->RangeStmt.body = body; return result; } AstNode *ast_match_stmt(AstFile *f, Token token, AstNode *init, AstNode *tag, AstNode *body) { AstNode *result = make_ast_node(f, AstNode_MatchStmt); result->MatchStmt.token = token; result->MatchStmt.init = init; result->MatchStmt.tag = tag; result->MatchStmt.body = body; return result; } AstNode *ast_type_match_stmt(AstFile *f, Token token, AstNode *tag, AstNode *body) { AstNode *result = make_ast_node(f, AstNode_TypeMatchStmt); result->TypeMatchStmt.token = token; result->TypeMatchStmt.tag = tag; result->TypeMatchStmt.body = body; return result; } AstNode *ast_case_clause(AstFile *f, Token token, AstNodeArray list, AstNodeArray stmts) { AstNode *result = make_ast_node(f, AstNode_CaseClause); result->CaseClause.token = token; result->CaseClause.list = list; result->CaseClause.stmts = stmts; return result; } AstNode *ast_defer_stmt(AstFile *f, Token token, AstNode *stmt) { AstNode *result = make_ast_node(f, AstNode_DeferStmt); result->DeferStmt.token = token; result->DeferStmt.stmt = stmt; return result; } AstNode *ast_branch_stmt(AstFile *f, Token token, AstNode *label) { AstNode *result = make_ast_node(f, AstNode_BranchStmt); result->BranchStmt.token = token; result->BranchStmt.label = label; return result; } AstNode *ast_using_stmt(AstFile *f, Token token, AstNodeArray list) { AstNode *result = make_ast_node(f, AstNode_UsingStmt); result->UsingStmt.token = token; result->UsingStmt.list = list; return result; } AstNode *ast_asm_operand(AstFile *f, Token string, AstNode *operand) { AstNode *result = make_ast_node(f, AstNode_AsmOperand); result->AsmOperand.string = string; result->AsmOperand.operand = operand; return result; } AstNode *ast_asm_stmt(AstFile *f, Token token, bool is_volatile, Token open, Token close, Token code_string, AstNode *output_list, AstNode *input_list, AstNode *clobber_list, isize output_count, isize input_count, isize clobber_count) { AstNode *result = make_ast_node(f, AstNode_AsmStmt); result->AsmStmt.token = token; result->AsmStmt.is_volatile = is_volatile; result->AsmStmt.open = open; result->AsmStmt.close = close; result->AsmStmt.code_string = code_string; result->AsmStmt.output_list = output_list; result->AsmStmt.input_list = input_list; result->AsmStmt.clobber_list = clobber_list; result->AsmStmt.output_count = output_count; result->AsmStmt.input_count = input_count; result->AsmStmt.clobber_count = clobber_count; return result; } AstNode *ast_push_allocator(AstFile *f, Token token, AstNode *expr, AstNode *body) { AstNode *result = make_ast_node(f, AstNode_PushAllocator); result->PushAllocator.token = token; result->PushAllocator.expr = expr; result->PushAllocator.body = body; return result; } AstNode *ast_push_context(AstFile *f, Token token, AstNode *expr, AstNode *body) { AstNode *result = make_ast_node(f, AstNode_PushContext); result->PushContext.token = token; result->PushContext.expr = expr; result->PushContext.body = body; return result; } AstNode *ast_bad_decl(AstFile *f, Token begin, Token end) { AstNode *result = make_ast_node(f, AstNode_BadDecl); result->BadDecl.begin = begin; result->BadDecl.end = end; return result; } AstNode *ast_field(AstFile *f, AstNodeArray names, AstNode *type, u32 flags) { AstNode *result = make_ast_node(f, AstNode_Field); result->Field.names = names; result->Field.type = type; result->Field.flags = flags; return result; } AstNode *ast_field_list(AstFile *f, Token token, AstNodeArray list) { AstNode *result = make_ast_node(f, AstNode_FieldList); result->FieldList.token = token; result->FieldList.list = list; return result; } AstNode *ast_union_field(AstFile *f, AstNode *name, AstNode *list) { AstNode *result = make_ast_node(f, AstNode_UnionField); result->UnionField.name = name; result->UnionField.list = list; return result; } AstNode *ast_helper_type(AstFile *f, Token token, AstNode *type) { AstNode *result = make_ast_node(f, AstNode_HelperType); result->HelperType.token = token; result->HelperType.type = type; return result; } AstNode *ast_proc_type(AstFile *f, Token token, AstNode *params, AstNode *results, u64 tags, ProcCallingConvention calling_convention) { AstNode *result = make_ast_node(f, AstNode_ProcType); result->ProcType.token = token; result->ProcType.params = params; result->ProcType.results = results; result->ProcType.tags = tags; result->ProcType.calling_convention = calling_convention; return result; } AstNode *ast_pointer_type(AstFile *f, Token token, AstNode *type) { AstNode *result = make_ast_node(f, AstNode_PointerType); result->PointerType.token = token; result->PointerType.type = type; return result; } AstNode *ast_atomic_type(AstFile *f, Token token, AstNode *type) { AstNode *result = make_ast_node(f, AstNode_AtomicType); result->AtomicType.token = token; result->AtomicType.type = type; return result; } AstNode *ast_array_type(AstFile *f, Token token, AstNode *count, AstNode *elem) { AstNode *result = make_ast_node(f, AstNode_ArrayType); result->ArrayType.token = token; result->ArrayType.count = count; result->ArrayType.elem = elem; return result; } AstNode *ast_dynamic_array_type(AstFile *f, Token token, AstNode *elem) { AstNode *result = make_ast_node(f, AstNode_DynamicArrayType); result->DynamicArrayType.token = token; result->DynamicArrayType.elem = elem; return result; } AstNode *ast_vector_type(AstFile *f, Token token, AstNode *count, AstNode *elem) { AstNode *result = make_ast_node(f, AstNode_VectorType); result->VectorType.token = token; result->VectorType.count = count; result->VectorType.elem = elem; return result; } AstNode *ast_struct_type(AstFile *f, Token token, AstNodeArray fields, isize field_count, bool is_packed, bool is_ordered, AstNode *align) { AstNode *result = make_ast_node(f, AstNode_StructType); result->StructType.token = token; result->StructType.fields = fields; result->StructType.field_count = field_count; result->StructType.is_packed = is_packed; result->StructType.is_ordered = is_ordered; result->StructType.align = align; return result; } AstNode *ast_union_type(AstFile *f, Token token, AstNodeArray fields, isize field_count, AstNodeArray variants) { AstNode *result = make_ast_node(f, AstNode_UnionType); result->UnionType.token = token; result->UnionType.fields = fields; result->UnionType.field_count = field_count; result->UnionType.variants = variants; return result; } AstNode *ast_raw_union_type(AstFile *f, Token token, AstNodeArray fields, isize field_count) { AstNode *result = make_ast_node(f, AstNode_RawUnionType); result->RawUnionType.token = token; result->RawUnionType.fields = fields; result->RawUnionType.field_count = field_count; return result; } AstNode *ast_enum_type(AstFile *f, Token token, AstNode *base_type, AstNodeArray fields) { AstNode *result = make_ast_node(f, AstNode_EnumType); result->EnumType.token = token; result->EnumType.base_type = base_type; result->EnumType.fields = fields; return result; } AstNode *ast_bit_field_type(AstFile *f, Token token, AstNodeArray fields, AstNode *align) { AstNode *result = make_ast_node(f, AstNode_BitFieldType); result->BitFieldType.token = token; result->BitFieldType.fields = fields; result->BitFieldType.align = align; return result; } AstNode *ast_map_type(AstFile *f, Token token, AstNode *count, AstNode *key, AstNode *value) { AstNode *result = make_ast_node(f, AstNode_MapType); result->MapType.token = token; result->MapType.count = count; result->MapType.key = key; result->MapType.value = value; return result; } AstNode *ast_value_decl(AstFile *f, bool is_var, AstNodeArray names, AstNode *type, AstNodeArray values) { AstNode *result = make_ast_node(f, AstNode_ValueDecl); result->ValueDecl.is_var = is_var; result->ValueDecl.names = names; result->ValueDecl.type = type; result->ValueDecl.values = values; return result; } AstNode *ast_import_decl(AstFile *f, Token token, bool is_import, Token relpath, Token import_name, AstNode *cond) { AstNode *result = make_ast_node(f, AstNode_ImportDecl); result->ImportDecl.token = token; result->ImportDecl.is_import = is_import; result->ImportDecl.relpath = relpath; result->ImportDecl.import_name = import_name; result->ImportDecl.cond = cond; return result; } AstNode *ast_foreign_library(AstFile *f, Token token, Token filepath, Token library_name, AstNode *cond, bool is_system) { AstNode *result = make_ast_node(f, AstNode_ForeignLibrary); result->ForeignLibrary.token = token; result->ForeignLibrary.filepath = filepath; result->ForeignLibrary.library_name = library_name; result->ForeignLibrary.cond = cond; result->ForeignLibrary.is_system = is_system; return result; } AstNode *ast_label_decl(AstFile *f, Token token, AstNode *name) { AstNode *result = make_ast_node(f, AstNode_Label); result->Label.token = token; result->Label.name = name; return result; } bool next_token(AstFile *f) { Token prev = f->curr_token; if (f->curr_token_index+1 < f->tokens.count) { if (f->curr_token.kind != Token_Comment) { f->prev_token = f->curr_token; } f->curr_token_index++; f->curr_token = f->tokens[f->curr_token_index]; if (f->curr_token.kind == Token_Comment) { return next_token(f); } return true; } syntax_error(f->curr_token, "Token is EOF"); return false; } TokenKind look_ahead_token_kind(AstFile *f, isize amount) { GB_ASSERT(amount > 0); TokenKind kind = Token_Invalid; isize index = f->curr_token_index; while (amount > 0) { index++; kind = f->tokens[index].kind; if (kind != Token_Comment) { amount--; } } return kind; } Token expect_token(AstFile *f, TokenKind kind) { Token prev = f->curr_token; if (prev.kind != kind) { String p = token_strings[prev.kind]; syntax_error(f->curr_token, "Expected `%.*s`, got `%.*s`", LIT(token_strings[kind]), LIT(token_strings[prev.kind])); if (prev.kind == Token_EOF) { gb_exit(1); } } next_token(f); return prev; } Token expect_token_after(AstFile *f, TokenKind kind, char *msg) { Token prev = f->curr_token; if (prev.kind != kind) { String p = token_strings[prev.kind]; syntax_error(f->curr_token, "Expected `%.*s` after %s, got `%.*s`", LIT(token_strings[kind]), msg, LIT(p)); } next_token(f); return prev; } Token expect_operator(AstFile *f) { Token prev = f->curr_token; if (!gb_is_between(prev.kind, Token__OperatorBegin+1, Token__OperatorEnd-1)) { syntax_error(f->curr_token, "Expected an operator, got `%.*s`", LIT(token_strings[prev.kind])); } else if (!f->allow_range && (prev.kind == Token_Ellipsis || prev.kind == Token_HalfClosed)) { syntax_error(f->curr_token, "Expected an non-range operator, got `%.*s`", LIT(token_strings[prev.kind])); } next_token(f); return prev; } Token expect_keyword(AstFile *f) { Token prev = f->curr_token; if (!gb_is_between(prev.kind, Token__KeywordBegin+1, Token__KeywordEnd-1)) { syntax_error(f->curr_token, "Expected a keyword, got `%.*s`", LIT(token_strings[prev.kind])); } next_token(f); return prev; } bool allow_token(AstFile *f, TokenKind kind) { Token prev = f->curr_token; if (prev.kind == kind) { next_token(f); return true; } return false; } bool is_blank_ident(String str) { if (str.len == 1) { return str[0] == '_'; } return false; } // NOTE(bill): Go to next statement to prevent numerous error messages popping up void fix_advance_to_next_stmt(AstFile *f) { // TODO(bill): fix_advance_to_next_stmt #if 1 for (;;) { Token t = f->curr_token; switch (t.kind) { case Token_EOF: case Token_Semicolon: return; case Token_if: case Token_when: case Token_return: case Token_match: case Token_defer: case Token_asm: case Token_using: case Token_immutable: // case Token_thread_local: // case Token_no_alias: case Token_break: case Token_continue: case Token_fallthrough: case Token_push_allocator: case Token_push_context: case Token_Hash: { if (token_pos_eq(t.pos, f->fix_prev_pos) && f->fix_count < PARSER_MAX_FIX_COUNT) { f->fix_count++; return; } if (token_pos_cmp(f->fix_prev_pos, t.pos) < 0) { f->fix_prev_pos = t.pos; f->fix_count = 0; // NOTE(bill): Reset return; } // NOTE(bill): Reaching here means there is a parsing bug } break; } next_token(f); } #endif } Token expect_closing(AstFile *f, TokenKind kind, String context) { if (f->curr_token.kind != kind && f->curr_token.kind == Token_Semicolon && f->curr_token.string == "\n") { error(f->curr_token, "Missing `,` before newline in %.*s", LIT(context)); next_token(f); } return expect_token(f, kind); } bool is_semicolon_optional_for_node(AstFile *f, AstNode *s) { if (s == NULL) { return false; } switch (s->kind) { case AstNode_IfStmt: case AstNode_WhenStmt: case AstNode_ForStmt: case AstNode_RangeStmt: case AstNode_MatchStmt: case AstNode_TypeMatchStmt: return true; case AstNode_HelperType: return is_semicolon_optional_for_node(f, s->HelperType.type); case AstNode_PointerType: return is_semicolon_optional_for_node(f, s->PointerType.type); case AstNode_AtomicType: return is_semicolon_optional_for_node(f, s->AtomicType.type); case AstNode_StructType: case AstNode_UnionType: case AstNode_RawUnionType: case AstNode_EnumType: case AstNode_BitFieldType: return true; case AstNode_ProcLit: return s->ProcLit.body != NULL; case AstNode_ValueDecl: if (!s->ValueDecl.is_var) { if (s->ValueDecl.values.count > 0) { AstNode *last = s->ValueDecl.values[s->ValueDecl.values.count-1]; return is_semicolon_optional_for_node(f, last); } } break; } return false; } void expect_semicolon(AstFile *f, AstNode *s) { if (allow_token(f, Token_Semicolon)) { return; } Token prev_token = f->prev_token; switch (f->curr_token.kind) { case Token_EOF: return; } if (s != NULL) { if (prev_token.pos.line != f->curr_token.pos.line) { if (is_semicolon_optional_for_node(f, s)) { return; } } else { // switch (s->kind) { // case AstNode_GiveExpr: // if (f->curr_token.kind == Token_CloseBrace) { // return; // } // break; // } } syntax_error(prev_token, "Expected `;` after %.*s, got %.*s", LIT(ast_node_strings[s->kind]), LIT(token_strings[prev_token.kind])); } else { syntax_error(prev_token, "Expected `;`"); } fix_advance_to_next_stmt(f); } AstNode * parse_expr(AstFile *f, bool lhs); AstNode * parse_proc_type(AstFile *f, AstNode **foreign_library, String *foreign_name, String *link_name); AstNodeArray parse_stmt_list(AstFile *f); AstNode * parse_stmt(AstFile *f); AstNode * parse_body(AstFile *f); AstNode *parse_ident(AstFile *f) { Token token = f->curr_token; if (token.kind == Token_Ident) { next_token(f); } else { token.string = str_lit("_"); expect_token(f, Token_Ident); } return ast_ident(f, token); } AstNode *parse_tag_expr(AstFile *f, AstNode *expression) { Token token = expect_token(f, Token_Hash); Token name = expect_token(f, Token_Ident); return ast_tag_expr(f, token, name, expression); } AstNode *unparen_expr(AstNode *node) { for (;;) { if (node == NULL) { return NULL; } if (node->kind != AstNode_ParenExpr) { return node; } node = node->ParenExpr.expr; } } AstNode *parse_value(AstFile *f); AstNodeArray parse_element_list(AstFile *f) { AstNodeArray elems = make_ast_node_array(f); while (f->curr_token.kind != Token_CloseBrace && f->curr_token.kind != Token_EOF) { AstNode *elem = parse_value(f); if (f->curr_token.kind == Token_Eq) { Token eq = expect_token(f, Token_Eq); AstNode *value = parse_value(f); elem = ast_field_value(f, elem, value, eq); } array_add(&elems, elem); if (!allow_token(f, Token_Comma)) { break; } } return elems; } AstNode *parse_literal_value(AstFile *f, AstNode *type) { AstNodeArray elems = {}; Token open = expect_token(f, Token_OpenBrace); f->expr_level++; if (f->curr_token.kind != Token_CloseBrace) { elems = parse_element_list(f); } f->expr_level--; Token close = expect_closing(f, Token_CloseBrace, str_lit("compound literal")); return ast_compound_lit(f, type, elems, open, close); } AstNode *parse_value(AstFile *f) { if (f->curr_token.kind == Token_OpenBrace) { return parse_literal_value(f, NULL); } AstNode *value = parse_expr(f, false); return value; } AstNode *parse_type_or_ident(AstFile *f); void check_proc_add_tag(AstFile *f, AstNode *tag_expr, u64 *tags, ProcTag tag, String tag_name) { if (*tags & tag) { syntax_error_node(tag_expr, "Procedure tag already used: %.*s", LIT(tag_name)); } *tags |= tag; } bool is_foreign_name_valid(String name) { // TODO(bill): is_foreign_name_valid if (name.len == 0) return false; isize offset = 0; while (offset < name.len) { Rune rune; isize remaining = name.len - offset; isize width = gb_utf8_decode(name.text+offset, remaining, &rune); if (rune == GB_RUNE_INVALID && width == 1) { return false; } else if (rune == GB_RUNE_BOM && remaining > 0) { return false; } if (offset == 0) { switch (rune) { case '-': case '$': case '.': case '_': break; default: if (!gb_char_is_alpha(cast(char)rune)) return false; break; } } else { switch (rune) { case '-': case '$': case '.': case '_': break; default: if (!gb_char_is_alphanumeric(cast(char)rune)) { return false; } break; } } offset += width; } return true; } void parse_proc_tags(AstFile *f, u64 *tags, AstNode **foreign_library_token, String *foreign_name, String *link_name, ProcCallingConvention *calling_convention) { // TODO(bill): Add this to procedure literals too GB_ASSERT(tags != NULL); GB_ASSERT(link_name != NULL); GB_ASSERT(link_name != NULL); ProcCallingConvention cc = ProcCC_Invalid; while (f->curr_token.kind == Token_Hash) { AstNode *tag_expr = parse_tag_expr(f, NULL); ast_node(te, TagExpr, tag_expr); String tag_name = te->name.string; #define ELSE_IF_ADD_TAG(name) \ else if (tag_name == #name) { \ check_proc_add_tag(f, tag_expr, tags, ProcTag_##name, tag_name); \ } if (tag_name == "foreign") { check_proc_add_tag(f, tag_expr, tags, ProcTag_foreign, tag_name); *foreign_library_token = parse_ident(f); if (f->curr_token.kind == Token_String) { *foreign_name = f->curr_token.string; // TODO(bill): Check if valid string if (!is_foreign_name_valid(*foreign_name)) { syntax_error_node(tag_expr, "Invalid alternative foreign procedure name: `%.*s`", LIT(*foreign_name)); } next_token(f); } } else if (tag_name == "link_name") { check_proc_add_tag(f, tag_expr, tags, ProcTag_link_name, tag_name); if (f->curr_token.kind == Token_String) { *link_name = f->curr_token.string; // TODO(bill): Check if valid string if (!is_foreign_name_valid(*link_name)) { syntax_error_node(tag_expr, "Invalid alternative link procedure name `%.*s`", LIT(*link_name)); } next_token(f); } else { expect_token(f, Token_String); } } ELSE_IF_ADD_TAG(require_results) ELSE_IF_ADD_TAG(export) ELSE_IF_ADD_TAG(bounds_check) ELSE_IF_ADD_TAG(no_bounds_check) ELSE_IF_ADD_TAG(inline) ELSE_IF_ADD_TAG(no_inline) // ELSE_IF_ADD_TAG(dll_import) // ELSE_IF_ADD_TAG(dll_export) else if (tag_name == "cc_odin") { if (cc == ProcCC_Invalid) { cc = ProcCC_Odin; } else { syntax_error_node(tag_expr, "Multiple calling conventions for procedure type"); } } else if (tag_name == "cc_c") { if (cc == ProcCC_Invalid) { cc = ProcCC_C; } else { syntax_error_node(tag_expr, "Multiple calling conventions for procedure type"); } } else if (tag_name == "cc_std") { if (cc == ProcCC_Invalid) { cc = ProcCC_Std; } else { syntax_error_node(tag_expr, "Multiple calling conventions for procedure type"); } } else if (tag_name == "cc_fast") { if (cc == ProcCC_Invalid) { cc = ProcCC_Fast; } else { syntax_error_node(tag_expr, "Multiple calling conventions for procedure type"); } } else { syntax_error_node(tag_expr, "Unknown procedure tag #%.*s\n", LIT(tag_name)); } #undef ELSE_IF_ADD_TAG } if (cc == ProcCC_Invalid) { if ((*tags) & ProcTag_foreign) { cc = ProcCC_C; } else { cc = ProcCC_Odin; } } if (calling_convention) { *calling_convention = cc; } if ((*tags & ProcTag_foreign) && (*tags & ProcTag_export)) { syntax_error(f->curr_token, "You cannot apply both #foreign and #export to a procedure"); } if ((*tags & ProcTag_inline) && (*tags & ProcTag_no_inline)) { syntax_error(f->curr_token, "You cannot apply both #inline and #no_inline to a procedure"); } if ((*tags & ProcTag_bounds_check) && (*tags & ProcTag_no_bounds_check)) { syntax_error(f->curr_token, "You cannot apply both #bounds_check and #no_bounds_check to a procedure"); } if (((*tags & ProcTag_bounds_check) || (*tags & ProcTag_no_bounds_check)) && (*tags & ProcTag_foreign)) { syntax_error(f->curr_token, "You cannot apply both #bounds_check or #no_bounds_check to a procedure without a body"); } } AstNodeArray parse_lhs_expr_list(AstFile *f); AstNodeArray parse_rhs_expr_list(AstFile *f); AstNode * parse_simple_stmt (AstFile *f, StmtAllowFlag flags); AstNode * parse_type (AstFile *f); AstNode *convert_stmt_to_expr(AstFile *f, AstNode *statement, String kind) { if (statement == NULL) { return NULL; } if (statement->kind == AstNode_ExprStmt) { return statement->ExprStmt.expr; } syntax_error(f->curr_token, "Expected `%.*s`, found a simple statement.", LIT(kind)); return ast_bad_expr(f, f->curr_token, f->tokens[f->curr_token_index+1]); } AstNode *parse_operand(AstFile *f, bool lhs) { AstNode *operand = NULL; // Operand switch (f->curr_token.kind) { case Token_Ident: return parse_ident(f); case Token_context: return ast_implicit(f, expect_token(f, Token_context)); case Token_Integer: case Token_Float: case Token_Imag: case Token_Rune: operand = ast_basic_lit(f, f->curr_token); next_token(f); return operand; case Token_String: { Token token = f->curr_token; next_token(f); if (f->curr_token.kind == Token_String) { // NOTE(bill): Allow neighbouring string literals to be merge together to // become one big string String s = f->curr_token.string; Array data; array_init(&data, heap_allocator(), token.string.len+s.len); gb_memmove(data.data, token.string.text, token.string.len); data.count += token.string.len; while (f->curr_token.kind == Token_String) { String s = f->curr_token.string; isize old_count = data.count; array_resize(&data, data.count + s.len); gb_memmove(data.data+old_count, s.text, s.len); next_token(f); } token.string = make_string(data.data, data.count); array_add(&f->tokenizer.allocated_strings, token.string); } return ast_basic_lit(f, token); } case Token_OpenParen: { Token open, close; // NOTE(bill): Skip the Paren Expression open = expect_token(f, Token_OpenParen); f->expr_level++; operand = parse_expr(f, false); f->expr_level--; close = expect_token(f, Token_CloseParen); return ast_paren_expr(f, operand, open, close); } case Token_Hash: { Token token = expect_token(f, Token_Hash); Token name = expect_token(f, Token_Ident); if (name.string == "run") { AstNode *expr = parse_expr(f, false); operand = ast_run_expr(f, token, name, expr); if (unparen_expr(expr)->kind != AstNode_CallExpr) { error_node(expr, "#run can only be applied to procedure calls"); operand = ast_bad_expr(f, token, f->curr_token); } warning(token, "#run is not yet implemented"); } else if (name.string == "file") { return ast_basic_directive(f, token, name.string); } else if (name.string == "line") { return ast_basic_directive(f, token, name.string); } else if (name.string == "procedure") { return ast_basic_directive(f, token, name.string); } else if (name.string == "type") { return ast_helper_type(f, token, parse_type(f)); } else if (!lhs && name.string == "alias") { return ast_alias(f, token, parse_expr(f, false)); } else { operand = ast_tag_expr(f, token, name, parse_expr(f, false)); } return operand; } // Parse Procedure Type or Literal case Token_proc: { Token token = f->curr_token; AstNode *foreign_library = NULL; String foreign_name = {}; String link_name = {}; AstNode *type = parse_proc_type(f, &foreign_library, &foreign_name, &link_name); u64 tags = type->ProcType.tags; if (f->curr_token.kind == Token_OpenBrace) { if ((tags & ProcTag_foreign) != 0) { syntax_error(token, "A procedure tagged as `#foreign` cannot have a body"); } AstNode *curr_proc = f->curr_proc; AstNode *body = NULL; f->curr_proc = type; body = parse_body(f); f->curr_proc = curr_proc; return ast_proc_lit(f, type, body, tags, foreign_library, foreign_name, link_name); } if ((tags & ProcTag_foreign) != 0) { return ast_proc_lit(f, type, NULL, tags, foreign_library, foreign_name, link_name); } if (tags != 0) { // syntax_error(token, "A procedure type cannot have tags"); } return type; } default: { AstNode *type = parse_type_or_ident(f); if (type != NULL) { // TODO(bill): Is this correct??? // NOTE(bill): Sanity check as identifiers should be handled already TokenPos pos = ast_node_token(type).pos; GB_ASSERT_MSG(type->kind != AstNode_Ident, "Type cannot be identifier %.*s(%td:%td)", LIT(pos.file), pos.line, pos.column); return type; } break; } } return NULL; } bool is_literal_type(AstNode *node) { node = unparen_expr(node); switch (node->kind) { case AstNode_BadExpr: case AstNode_Ident: case AstNode_SelectorExpr: case AstNode_ArrayType: case AstNode_VectorType: case AstNode_StructType: case AstNode_DynamicArrayType: case AstNode_MapType: return true; } return false; } AstNode *parse_call_expr(AstFile *f, AstNode *operand) { AstNodeArray args = make_ast_node_array(f); Token open_paren, close_paren; Token ellipsis = {}; f->expr_level++; open_paren = expect_token(f, Token_OpenParen); while (f->curr_token.kind != Token_CloseParen && f->curr_token.kind != Token_EOF && ellipsis.pos.line == 0) { if (f->curr_token.kind == Token_Comma) { syntax_error(f->curr_token, "Expected an expression not a ,"); } if (f->curr_token.kind == Token_Ellipsis) { ellipsis = f->curr_token; next_token(f); } AstNode *arg = parse_expr(f, false); array_add(&args, arg); if (!allow_token(f, Token_Comma)) { break; } } f->expr_level--; close_paren = expect_closing(f, Token_CloseParen, str_lit("argument list")); return ast_call_expr(f, operand, args, open_paren, close_paren, ellipsis); } AstNode *parse_macro_call_expr(AstFile *f, AstNode *operand) { AstNodeArray args = make_ast_node_array(f); Token bang, open_paren, close_paren; bang = expect_token(f, Token_Not); f->expr_level++; open_paren = expect_token(f, Token_OpenParen); while (f->curr_token.kind != Token_CloseParen && f->curr_token.kind != Token_EOF) { if (f->curr_token.kind == Token_Comma) { syntax_error(f->curr_token, "Expected an expression not a ,"); } AstNode *arg = parse_expr(f, false); array_add(&args, arg); if (!allow_token(f, Token_Comma)) { break; } } f->expr_level--; close_paren = expect_closing(f, Token_CloseParen, str_lit("argument list")); return ast_macro_call_expr(f, operand, bang, args, open_paren, close_paren); } AstNode *parse_atom_expr(AstFile *f, bool lhs) { AstNode *operand = parse_operand(f, lhs); if (operand == NULL) { Token begin = f->curr_token; syntax_error(begin, "Expected an operand"); fix_advance_to_next_stmt(f); operand = ast_bad_expr(f, begin, f->curr_token); } bool loop = true; while (loop) { switch (f->curr_token.kind) { case Token_OpenParen: operand = parse_call_expr(f, operand); break; case Token_Not: operand = parse_macro_call_expr(f, operand); break; case Token_Period: { Token token = f->curr_token; next_token(f); switch (f->curr_token.kind) { case Token_Ident: operand = ast_selector_expr(f, token, operand, parse_ident(f)); break; case Token_Integer: operand = ast_selector_expr(f, token, operand, parse_expr(f, lhs)); break; case Token_OpenParen: { Token open = expect_token(f, Token_OpenParen); AstNode *type = parse_type(f); Token close = expect_token(f, Token_CloseParen); operand = ast_type_assertion(f, operand, token, type); } break; default: syntax_error(f->curr_token, "Expected a selector"); next_token(f); operand = ast_bad_expr(f, ast_node_token(operand), f->curr_token); // operand = ast_selector_expr(f, f->curr_token, operand, NULL); break; } } break; case Token_OpenBracket: { if (lhs) { // TODO(bill): Handle this } bool prev_allow_range = f->allow_range; f->allow_range = false; Token open = {}, close = {}, interval = {}; AstNode *indices[3] = {}; isize ellipsis_count = 0; Token ellipses[2] = {}; f->expr_level++; open = expect_token(f, Token_OpenBracket); if (f->curr_token.kind != Token_Ellipsis && f->curr_token.kind != Token_HalfClosed) { indices[0] = parse_expr(f, false); } bool is_index = true; while ((f->curr_token.kind == Token_Ellipsis || f->curr_token.kind == Token_HalfClosed) && ellipsis_count < gb_count_of(ellipses)) { ellipses[ellipsis_count++] = f->curr_token; next_token(f); if (f->curr_token.kind != Token_Ellipsis && f->curr_token.kind != Token_HalfClosed && f->curr_token.kind != Token_CloseBracket && f->curr_token.kind != Token_EOF) { indices[ellipsis_count] = parse_expr(f, false); } } f->expr_level--; close = expect_token(f, Token_CloseBracket); if (ellipsis_count > 0) { bool index3 = false; if (ellipsis_count == 2) { index3 = true; // 2nd and 3rd index must be present if (indices[1] == NULL) { error(ellipses[0], "2nd index required in 3-index slice expression"); indices[1] = ast_bad_expr(f, ellipses[0], ellipses[1]); } if (indices[2] == NULL) { error(ellipses[1], "3rd index required in 3-index slice expression"); indices[2] = ast_bad_expr(f, ellipses[1], close); } } operand = ast_slice_expr(f, operand, open, close, ellipses[0], ellipses[1], index3, indices[0], indices[1], indices[2]); } else { operand = ast_index_expr(f, operand, indices[0], open, close); } f->allow_range = prev_allow_range; } break; case Token_Pointer: // Deference operand = ast_deref_expr(f, operand, expect_token(f, Token_Pointer)); break; case Token_OpenBrace: if (!lhs && is_literal_type(operand) && f->expr_level >= 0) { operand = parse_literal_value(f, operand); } else { loop = false; } break; default: loop = false; break; } lhs = false; // NOTE(bill): 'tis not lhs anymore } return operand; } AstNode *parse_unary_expr(AstFile *f, bool lhs) { switch (f->curr_token.kind) { case Token_Add: case Token_Sub: case Token_Not: case Token_Xor: case Token_And: { Token op = f->curr_token; next_token(f); return ast_unary_expr(f, op, parse_unary_expr(f, lhs)); } break; } return parse_atom_expr(f, lhs); } bool is_ast_node_a_range(AstNode *expr) { if (expr == NULL) { return false; } if (expr->kind != AstNode_BinaryExpr) { return false; } TokenKind op = expr->BinaryExpr.op.kind; switch (op) { case Token_Ellipsis: case Token_HalfClosed: return true; } return false; } // NOTE(bill): result == priority i32 token_precedence(AstFile *f, TokenKind t) { switch (t) { case Token_Question: return 1; case Token_Ellipsis: case Token_HalfClosed: if (f->allow_range) { return 2; } return 0; case Token_CmpOr: return 3; case Token_CmpAnd: return 4; case Token_CmpEq: case Token_NotEq: case Token_Lt: case Token_Gt: case Token_LtEq: case Token_GtEq: return 5; case Token_Add: case Token_Sub: case Token_Or: case Token_Xor: return 6; case Token_Mul: case Token_Quo: case Token_Mod: case Token_ModMod: case Token_And: case Token_AndNot: case Token_Shl: case Token_Shr: return 7; } return 0; } AstNode *parse_binary_expr(AstFile *f, bool lhs, i32 prec_in) { AstNode *expr = parse_unary_expr(f, lhs); for (i32 prec = token_precedence(f, f->curr_token.kind); prec >= prec_in; prec--) { for (;;) { Token op = f->curr_token; i32 op_prec = token_precedence(f, op.kind); if (op_prec != prec) { // NOTE(bill): This will also catch operators that are not valid "binary" operators break; } expect_operator(f); // NOTE(bill): error checks too if (op.kind == Token_Question) { AstNode *cond = expr; // Token_Question AstNode *x = parse_expr(f, lhs); Token token_c = expect_token(f, Token_Colon); AstNode *y = parse_expr(f, lhs); expr = ast_ternary_expr(f, cond, x, y); } else { AstNode *right = parse_binary_expr(f, false, prec+1); if (right == NULL) { syntax_error(op, "Expected expression on the right-hand side of the binary operator"); } expr = ast_binary_expr(f, op, expr, right); } lhs = false; } } return expr; } AstNode *parse_expr(AstFile *f, bool lhs) { return parse_binary_expr(f, lhs, 0+1); } AstNodeArray parse_expr_list(AstFile *f, bool lhs) { AstNodeArray list = make_ast_node_array(f); for (;;) { AstNode *e = parse_expr(f, lhs); array_add(&list, e); if (f->curr_token.kind != Token_Comma || f->curr_token.kind == Token_EOF) { break; } next_token(f); } return list; } AstNodeArray parse_lhs_expr_list(AstFile *f) { return parse_expr_list(f, true); } AstNodeArray parse_rhs_expr_list(AstFile *f) { return parse_expr_list(f, false); } AstNodeArray parse_ident_list(AstFile *f) { AstNodeArray list = make_ast_node_array(f); do { array_add(&list, parse_ident(f)); if (f->curr_token.kind != Token_Comma || f->curr_token.kind == Token_EOF) { break; } next_token(f); } while (true); return list; } AstNode *parse_type_attempt(AstFile *f) { AstNode *type = parse_type_or_ident(f); if (type != NULL) { // TODO(bill): Handle? } return type; } AstNode *parse_type(AstFile *f) { AstNode *type = parse_type_attempt(f); if (type == NULL) { Token token = f->curr_token; syntax_error(token, "Expected a type"); next_token(f); return ast_bad_expr(f, token, f->curr_token); } return type; } AstNode *parse_value_decl(AstFile *f, AstNodeArray lhs) { AstNode *type = NULL; AstNodeArray values = {}; bool is_mutable = true; if (allow_token(f, Token_Colon)) { type = parse_type_attempt(f); } else if (f->curr_token.kind != Token_Eq && f->curr_token.kind != Token_Semicolon) { syntax_error(f->curr_token, "Expected a type separator `:` or `=`"); } switch (f->curr_token.kind) { case Token_Colon: is_mutable = false; /*fallthrough*/ case Token_Eq: next_token(f); values = parse_rhs_expr_list(f); if (values.count > lhs.count) { syntax_error(f->curr_token, "Too many values on the right hand side of the declaration"); } else if (values.count < lhs.count && !is_mutable) { syntax_error(f->curr_token, "All constant declarations must be defined"); } else if (values.count == 0) { syntax_error(f->curr_token, "Expected an expression for this declaration"); } break; } if (is_mutable) { if (type == NULL && values.count == 0) { syntax_error(f->curr_token, "Missing variable type or initialization"); return ast_bad_decl(f, f->curr_token, f->curr_token); } } else { if (type == NULL && values.count == 0 && lhs.count > 0) { syntax_error(f->curr_token, "Missing constant value"); return ast_bad_decl(f, f->curr_token, f->curr_token); } } if (values.data == NULL) { values = make_ast_node_array(f); } AstNodeArray specs = {}; array_init(&specs, heap_allocator(), 1); return ast_value_decl(f, is_mutable, lhs, type, values); } AstNode *parse_simple_stmt(AstFile *f, StmtAllowFlag flags) { AstNodeArray lhs = parse_lhs_expr_list(f); Token token = f->curr_token; switch (token.kind) { case Token_Eq: case Token_AddEq: case Token_SubEq: case Token_MulEq: case Token_QuoEq: case Token_ModEq: case Token_ModModEq: case Token_AndEq: case Token_OrEq: case Token_XorEq: case Token_ShlEq: case Token_ShrEq: case Token_AndNotEq: case Token_CmpAndEq: case Token_CmpOrEq: { if (f->curr_proc == NULL) { syntax_error(f->curr_token, "You cannot use a simple statement in the file scope"); return ast_bad_stmt(f, f->curr_token, f->curr_token); } next_token(f); AstNodeArray rhs = parse_rhs_expr_list(f); if (rhs.count == 0) { syntax_error(token, "No right-hand side in assignment statement."); return ast_bad_stmt(f, token, f->curr_token); } return ast_assign_stmt(f, token, lhs, rhs); } break; case Token_in: if (flags&StmtAllowFlag_In) { allow_token(f, Token_in); bool prev_allow_range = f->allow_range; f->allow_range = true; AstNode *expr = parse_expr(f, false); f->allow_range = prev_allow_range; AstNodeArray rhs = {}; array_init_count(&rhs, heap_allocator(), 1); rhs[0] = expr; return ast_assign_stmt(f, token, lhs, rhs); } break; case Token_Colon: if ((flags&StmtAllowFlag_Label) && lhs.count == 1) { TokenKind next = look_ahead_token_kind(f, 1); switch (next) { case Token_for: case Token_match: { next_token(f); AstNode *name = lhs[0]; AstNode *label = ast_label_decl(f, ast_node_token(name), name); AstNode *stmt = parse_stmt(f); #define _SET_LABEL(Kind_, label_) case GB_JOIN2(AstNode_, Kind_): (stmt->Kind_).label = label_; break switch (stmt->kind) { _SET_LABEL(ForStmt, label); _SET_LABEL(RangeStmt, label); _SET_LABEL(MatchStmt, label); _SET_LABEL(TypeMatchStmt, label); default: syntax_error(token, "Labels can only be applied to a loop or match statement"); break; } #undef _SET_LABEL return stmt; } break; } } return parse_value_decl(f, lhs); } if (lhs.count > 1) { syntax_error(token, "Expected 1 expression"); return ast_bad_stmt(f, token, f->curr_token); } switch (token.kind) { case Token_Inc: case Token_Dec: next_token(f); return ast_inc_dec_stmt(f, token, lhs[0]); } return ast_expr_stmt(f, lhs[0]); } AstNode *parse_block_stmt(AstFile *f, b32 is_when) { if (!is_when && f->curr_proc == NULL) { syntax_error(f->curr_token, "You cannot use a block statement in the file scope"); return ast_bad_stmt(f, f->curr_token, f->curr_token); } return parse_body(f); } AstNode *parse_field_list(AstFile *f, isize *name_count_, u32 allowed_flags, TokenKind follow); AstNode *parse_results(AstFile *f) { if (!allow_token(f, Token_ArrowRight)) { return NULL; } if (f->curr_token.kind != Token_OpenParen) { Token begin_token = f->curr_token; AstNodeArray empty_names = {}; AstNodeArray list = make_ast_node_array(f); AstNode *type = parse_type(f); array_add(&list, ast_field(f, empty_names, type, 0)); return ast_field_list(f, begin_token, list); } AstNode *list = NULL; expect_token(f, Token_OpenParen); list = parse_field_list(f, NULL, 0, Token_CloseParen); expect_token_after(f, Token_CloseParen, "parameter list"); return list; } AstNode *parse_proc_type(AstFile *f, AstNode **foreign_library_, String *foreign_name_, String *link_name_) { AstNode *params = {}; AstNode *results = {}; Token proc_token = expect_token(f, Token_proc); expect_token(f, Token_OpenParen); params = parse_field_list(f, NULL, FieldFlag_Signature, Token_CloseParen); expect_token_after(f, Token_CloseParen, "parameter list"); results = parse_results(f); u64 tags = 0; String foreign_name = {}; String link_name = {}; AstNode *foreign_library = NULL; ProcCallingConvention cc = ProcCC_Odin; parse_proc_tags(f, &tags, &foreign_library, &foreign_name, &link_name, &cc); if (foreign_library_) *foreign_library_ = foreign_library; if (foreign_name_) *foreign_name_ = foreign_name; if (link_name_) *link_name_ = link_name; return ast_proc_type(f, proc_token, params, results, tags, cc); } AstNode *parse_var_type(AstFile *f, bool allow_ellipsis) { if (allow_ellipsis && f->curr_token.kind == Token_Ellipsis) { Token tok = f->curr_token; next_token(f); AstNode *type = parse_type_or_ident(f); if (type == NULL) { error(tok, "variadic field missing type after `...`"); type = ast_bad_expr(f, tok, f->curr_token); } return ast_ellipsis(f, tok, type); } AstNode *type = parse_type_attempt(f); if (type == NULL) { Token tok = f->curr_token; error(tok, "Expected a type"); type = ast_bad_expr(f, tok, f->curr_token); } return type; } typedef enum FieldPrefixKind { FieldPrefix_Invalid, FieldPrefix_Using, FieldPrefix_Immutable, FieldPrefix_NoAlias, } FieldPrefixKind; FieldPrefixKind is_token_field_prefix(AstFile *f) { switch (f->curr_token.kind) { case Token_EOF: return FieldPrefix_Invalid; case Token_using: return FieldPrefix_Using; case Token_immutable: return FieldPrefix_Immutable; case Token_Hash: { next_token(f); switch (f->curr_token.kind) { case Token_Ident: if (f->curr_token.string == "no_alias") { return FieldPrefix_NoAlias; } break; } } break; } return FieldPrefix_Invalid; } u32 parse_field_prefixes(AstFile *f) { i32 using_count = 0; i32 no_alias_count = 0; i32 immutable_count = 0; for (;;) { FieldPrefixKind kind = is_token_field_prefix(f); if (kind == FieldPrefix_Invalid) { break; } switch (kind) { case FieldPrefix_Using: using_count += 1; next_token(f); break; case FieldPrefix_Immutable: immutable_count += 1; next_token(f); break; case FieldPrefix_NoAlias: no_alias_count += 1; next_token(f); break; } } if (using_count > 1) syntax_error(f->curr_token, "Multiple `using` in this field list"); if (immutable_count > 1) syntax_error(f->curr_token, "Multiple `immutable` in this field list"); if (no_alias_count > 1) syntax_error(f->curr_token, "Multiple `#no_alias` in this field list"); u32 field_flags = 0; if (using_count > 0) field_flags |= FieldFlag_using; if (no_alias_count > 0) field_flags |= FieldFlag_no_alias; if (immutable_count > 0) field_flags |= FieldFlag_immutable; return field_flags; } u32 check_field_prefixes(AstFile *f, isize name_count, u32 allowed_flags, u32 set_flags) { if (name_count > 1 && (set_flags&FieldFlag_using)) { syntax_error(f->curr_token, "Cannot apply `using` to more than one of the same type"); set_flags &= ~FieldFlag_using; } if ((allowed_flags&FieldFlag_using) == 0 && (set_flags&FieldFlag_using)) { syntax_error(f->curr_token, "`using` is not allowed within this field list"); set_flags &= ~FieldFlag_using; } if ((allowed_flags&FieldFlag_no_alias) == 0 && (set_flags&FieldFlag_no_alias)) { syntax_error(f->curr_token, "`no_alias` is not allowed within this field list"); set_flags &= ~FieldFlag_no_alias; } if ((allowed_flags&FieldFlag_immutable) == 0 && (set_flags&FieldFlag_immutable)) { syntax_error(f->curr_token, "`immutable` is not allowed within this field list"); set_flags &= ~FieldFlag_immutable; } return set_flags; } typedef struct AstNodeAndFlags { AstNode *node; u32 flags; } AstNodeAndFlags; AstNodeArray convert_to_ident_list(AstFile *f, Array list, bool ignore_flags) { AstNodeArray idents = {}; array_init(&idents, heap_allocator(), list.count); // Convert to ident list for_array(i, list) { AstNode *ident = list[i].node; if (!ignore_flags) { if (i != 0) { error_node(ident, "Illegal use of prefixes in parameter list"); } } switch (ident->kind) { case AstNode_Ident: case AstNode_BadExpr: break; default: error_node(ident, "Expected an identifier"); ident = ast_ident(f, blank_token); break; } array_add(&idents, ident); } return idents; } bool parse_expect_field_separator(AstFile *f, AstNode *param) { Token token = f->curr_token; if (allow_token(f, Token_Comma)) { return true; } if (token.kind == Token_Semicolon) { next_token(f); error(f->curr_token, "Expected a comma, got a semicolon"); return true; } return false; } AstNode *parse_field_list(AstFile *f, isize *name_count_, u32 allowed_flags, TokenKind follow) { TokenKind separator = Token_Comma; Token start_token = f->curr_token; AstNodeArray params = make_ast_node_array(f); Array list = {}; array_init(&list, heap_allocator()); // LEAK(bill): isize total_name_count = 0; bool allow_ellipsis = allowed_flags&FieldFlag_ellipsis; while (f->curr_token.kind != follow && f->curr_token.kind != Token_Colon && f->curr_token.kind != Token_EOF) { u32 flags = parse_field_prefixes(f); AstNode *param = parse_var_type(f, allow_ellipsis); AstNodeAndFlags naf = {param, flags}; array_add(&list, naf); if (f->curr_token.kind != Token_Comma) { break; } next_token(f); } if (f->curr_token.kind == Token_Colon) { AstNodeArray names = convert_to_ident_list(f, list, true); // Copy for semantic reasons if (names.count == 0) { syntax_error(f->curr_token, "Empty field declaration"); } u32 set_flags = 0; if (list.count > 0) { set_flags = list[0].flags; } set_flags = check_field_prefixes(f, names.count, allowed_flags, set_flags); total_name_count += names.count; expect_token_after(f, Token_Colon, "field list"); AstNode *type = parse_var_type(f, allow_ellipsis); AstNode *param = ast_field(f, names, type, set_flags); array_add(¶ms, param); parse_expect_field_separator(f, type); while (f->curr_token.kind != follow && f->curr_token.kind != Token_EOF) { u32 set_flags = parse_field_prefixes(f); AstNodeArray names = parse_ident_list(f); if (names.count == 0) { syntax_error(f->curr_token, "Empty field declaration"); break; } set_flags = check_field_prefixes(f, names.count, allowed_flags, set_flags); total_name_count += names.count; expect_token_after(f, Token_Colon, "field list"); AstNode *type = parse_var_type(f, allow_ellipsis); AstNode *param = ast_field(f, names, type, set_flags); array_add(¶ms, param); if (!parse_expect_field_separator(f, param)) { break; } } if (name_count_) *name_count_ = total_name_count; return ast_field_list(f, start_token, params); } for_array(i, list) { AstNodeArray names = {}; AstNode *type = list[i].node; Token token = blank_token; array_init_count(&names, heap_allocator(), 1); token.pos = ast_node_token(type).pos; names[0] = ast_ident(f, token); u32 flags = check_field_prefixes(f, list.count, allowed_flags, list[i].flags); AstNode *param = ast_field(f, names, list[i].node, flags); array_add(¶ms, param); } if (name_count_) *name_count_ = total_name_count; return ast_field_list(f, start_token, params); } AstNode *parse_record_fields(AstFile *f, isize *field_count_, u32 flags, String context) { return parse_field_list(f, field_count_, flags, Token_CloseBrace); } AstNode *parse_type_or_ident(AstFile *f) { switch (f->curr_token.kind) { case Token_Ident: { AstNode *e = parse_ident(f); while (f->curr_token.kind == Token_Period) { Token token = f->curr_token; next_token(f); AstNode *sel = parse_ident(f); e = ast_selector_expr(f, token, e, sel); } // TODO(bill): Merge type_or_ident into the general parsing for expressions // if (f->curr_token.kind == Token_OpenParen) { // HACK NOTE(bill): For type_of_val(expr) et al. // e = parse_call_expr(f, e); // } return e; } case Token_Hash: { Token hash_token = expect_token(f, Token_Hash); Token name = expect_token(f, Token_Ident); String tag = name.string; if (tag == "type") { AstNode *type = parse_type(f); return ast_helper_type(f, hash_token, type); } syntax_error(name, "Expected `type` after #"); return ast_bad_expr(f, hash_token, f->curr_token); } case Token_Pointer: { Token token = expect_token(f, Token_Pointer); AstNode *elem = parse_type(f); return ast_pointer_type(f, token, elem); } case Token_atomic: { Token token = expect_token(f, Token_atomic); AstNode *elem = parse_type(f); return ast_atomic_type(f, token, elem); } case Token_OpenBracket: { Token token = expect_token(f, Token_OpenBracket); AstNode *count_expr = NULL; bool is_vector = false; if (f->curr_token.kind == Token_Ellipsis) { count_expr = ast_unary_expr(f, expect_token(f, Token_Ellipsis), NULL); } else if (f->curr_token.kind == Token_vector) { next_token(f); if (f->curr_token.kind != Token_CloseBracket) { f->expr_level++; count_expr = parse_expr(f, false); f->expr_level--; } else { syntax_error(f->curr_token, "Vector type missing count"); } is_vector = true; } else if (f->curr_token.kind == Token_dynamic) { next_token(f); expect_token(f, Token_CloseBracket); return ast_dynamic_array_type(f, token, parse_type(f)); } else if (f->curr_token.kind != Token_CloseBracket) { f->expr_level++; count_expr = parse_expr(f, false); f->expr_level--; } expect_token(f, Token_CloseBracket); if (is_vector) { return ast_vector_type(f, token, count_expr, parse_type(f)); } return ast_array_type(f, token, count_expr, parse_type(f)); } case Token_map: { Token token = expect_token(f, Token_map); AstNode *count = NULL; AstNode *key = NULL; AstNode *value = NULL; Token open = expect_token_after(f, Token_OpenBracket, "map"); key = parse_expr(f, true); if (allow_token(f, Token_Comma)) { count = key; key = parse_type(f); } Token close = expect_token(f, Token_CloseBracket); value = parse_type(f); return ast_map_type(f, token, count, key, value); } break; case Token_struct: { Token token = expect_token(f, Token_struct); bool is_packed = false; bool is_ordered = false; AstNode *align = NULL; isize prev_level = f->expr_level; f->expr_level = -1; while (allow_token(f, Token_Hash)) { Token tag = expect_token_after(f, Token_Ident, "#"); if (tag.string == "packed") { if (is_packed) { syntax_error(tag, "Duplicate struct tag `#%.*s`", LIT(tag.string)); } is_packed = true; } else if (tag.string == "ordered") { if (is_ordered) { syntax_error(tag, "Duplicate struct tag `#%.*s`", LIT(tag.string)); } is_ordered = true; } else if (tag.string == "align") { if (align) { syntax_error(tag, "Duplicate struct tag `#%.*s`", LIT(tag.string)); } align = parse_expr(f, true); } else { syntax_error(tag, "Invalid struct tag `#%.*s`", LIT(tag.string)); } } f->expr_level = prev_level; if (is_packed && is_ordered) { syntax_error(token, "`#ordered` is not needed with `#packed` which implies ordering"); } Token open = expect_token_after(f, Token_OpenBrace, "struct"); isize decl_count = 0; AstNode *fields = parse_record_fields(f, &decl_count, FieldFlag_using, str_lit("struct")); Token close = expect_token(f, Token_CloseBrace); AstNodeArray decls = {}; if (fields != NULL) { GB_ASSERT(fields->kind == AstNode_FieldList); decls = fields->FieldList.list; } return ast_struct_type(f, token, decls, decl_count, is_packed, is_ordered, align); } break; case Token_union: { Token token = expect_token(f, Token_union); Token open = expect_token_after(f, Token_OpenBrace, "union"); AstNodeArray decls = make_ast_node_array(f); AstNodeArray variants = make_ast_node_array(f); isize total_decl_name_count = 0; while (f->curr_token.kind != Token_CloseBrace && f->curr_token.kind != Token_EOF) { u32 decl_flags = parse_field_prefixes(f); if (decl_flags != 0) { AstNodeArray names = parse_ident_list(f); if (names.count == 0) { syntax_error(f->curr_token, "Empty field declaration"); } u32 set_flags = check_field_prefixes(f, names.count, FieldFlag_using, decl_flags); total_decl_name_count += names.count; expect_token_after(f, Token_Colon, "field list"); AstNode *type = parse_var_type(f, false); array_add(&decls, ast_field(f, names, type, set_flags)); } else { AstNodeArray names = parse_ident_list(f); if (names.count == 0) { break; } if (names.count > 1 || f->curr_token.kind == Token_Colon) { u32 set_flags = check_field_prefixes(f, names.count, FieldFlag_using, decl_flags); total_decl_name_count += names.count; expect_token_after(f, Token_Colon, "field list"); AstNode *type = parse_var_type(f, false); array_add(&decls, ast_field(f, names, type, set_flags)); } else { AstNode *name = names[0]; Token open = expect_token(f, Token_OpenBrace); isize decl_count = 0; AstNode *list = parse_record_fields(f, &decl_count, FieldFlag_using, str_lit("union")); Token close = expect_token(f, Token_CloseBrace); array_add(&variants, ast_union_field(f, name, list)); } } if (f->curr_token.kind != Token_Comma) { break; } next_token(f); } Token close = expect_token(f, Token_CloseBrace); return ast_union_type(f, token, decls, total_decl_name_count, variants); } case Token_raw_union: { Token token = expect_token(f, Token_raw_union); Token open = expect_token_after(f, Token_OpenBrace, "raw_union"); isize decl_count = 0; AstNode *fields = parse_record_fields(f, &decl_count, FieldFlag_using, str_lit("raw_union")); Token close = expect_token(f, Token_CloseBrace); AstNodeArray decls = {}; if (fields != NULL) { GB_ASSERT(fields->kind == AstNode_FieldList); decls = fields->FieldList.list; } return ast_raw_union_type(f, token, decls, decl_count); } case Token_enum: { Token token = expect_token(f, Token_enum); AstNode *base_type = NULL; if (f->curr_token.kind != Token_OpenBrace) { base_type = parse_type(f); } Token open = expect_token(f, Token_OpenBrace); AstNodeArray values = parse_element_list(f); Token close = expect_token(f, Token_CloseBrace); return ast_enum_type(f, token, base_type, values); } case Token_bit_field: { Token token = expect_token(f, Token_bit_field); AstNodeArray fields = make_ast_node_array(f); AstNode *align = NULL; Token open, close; isize prev_level = f->expr_level; f->expr_level = -1; while (allow_token(f, Token_Hash)) { Token tag = expect_token_after(f, Token_Ident, "#"); if (tag.string == "align") { if (align) { syntax_error(tag, "Duplicate bit_field tag `#%.*s`", LIT(tag.string)); } align = parse_expr(f, true); } else { syntax_error(tag, "Invalid bit_field tag `#%.*s`", LIT(tag.string)); } } f->expr_level = prev_level; open = expect_token_after(f, Token_OpenBrace, "bit_field"); while (f->curr_token.kind != Token_EOF && f->curr_token.kind != Token_CloseBrace) { AstNode *name = parse_ident(f); Token colon = expect_token(f, Token_Colon); AstNode *value = parse_expr(f, true); AstNode *field = ast_field_value(f, name, value, colon); array_add(&fields, field); if (f->curr_token.kind != Token_Comma) { break; } next_token(f); } close = expect_token(f, Token_CloseBrace); return ast_bit_field_type(f, token, fields, align); } case Token_proc: { Token token = f->curr_token; AstNode *pt = parse_proc_type(f, NULL, NULL, NULL); if (pt->ProcType.tags != 0) { syntax_error(token, "A procedure type cannot have tags"); } return pt; } case Token_OpenParen: { Token open = expect_token(f, Token_OpenParen); AstNode *type = parse_type(f); Token close = expect_token(f, Token_CloseParen); return ast_paren_expr(f, type, open, close); } break; } // No type found return NULL; } AstNode *parse_body(AstFile *f) { AstNodeArray stmts = {}; Token open, close; isize prev_expr_level = f->expr_level; // NOTE(bill): The body may be within an expression so reset to zero f->expr_level = 0; open = expect_token(f, Token_OpenBrace); stmts = parse_stmt_list(f); close = expect_token(f, Token_CloseBrace); f->expr_level = prev_expr_level; return ast_block_stmt(f, stmts, open, close); } AstNode *parse_if_stmt(AstFile *f) { if (f->curr_proc == NULL) { syntax_error(f->curr_token, "You cannot use an if statement in the file scope"); return ast_bad_stmt(f, f->curr_token, f->curr_token); } Token token = expect_token(f, Token_if); AstNode *init = NULL; AstNode *cond = NULL; AstNode *body = NULL; AstNode *else_stmt = NULL; isize prev_level = f->expr_level; f->expr_level = -1; if (allow_token(f, Token_Semicolon)) { cond = parse_expr(f, false); } else { init = parse_simple_stmt(f, StmtAllowFlag_None); if (allow_token(f, Token_Semicolon)) { cond = parse_expr(f, false); } else { cond = convert_stmt_to_expr(f, init, str_lit("boolean expression")); init = NULL; } } f->expr_level = prev_level; if (cond == NULL) { syntax_error(f->curr_token, "Expected condition for if statement"); } body = parse_block_stmt(f, false); if (allow_token(f, Token_else)) { switch (f->curr_token.kind) { case Token_if: else_stmt = parse_if_stmt(f); break; case Token_OpenBrace: else_stmt = parse_block_stmt(f, false); break; default: syntax_error(f->curr_token, "Expected if statement block statement"); else_stmt = ast_bad_stmt(f, f->curr_token, f->tokens[f->curr_token_index+1]); break; } } return ast_if_stmt(f, token, init, cond, body, else_stmt); } AstNode *parse_when_stmt(AstFile *f) { Token token = expect_token(f, Token_when); AstNode *cond = NULL; AstNode *body = NULL; AstNode *else_stmt = NULL; isize prev_level = f->expr_level; f->expr_level = -1; cond = parse_expr(f, false); f->expr_level = prev_level; if (cond == NULL) { syntax_error(f->curr_token, "Expected condition for when statement"); } body = parse_block_stmt(f, true); if (allow_token(f, Token_else)) { switch (f->curr_token.kind) { case Token_when: else_stmt = parse_when_stmt(f); break; case Token_OpenBrace: else_stmt = parse_block_stmt(f, true); break; default: syntax_error(f->curr_token, "Expected when statement block statement"); else_stmt = ast_bad_stmt(f, f->curr_token, f->tokens[f->curr_token_index+1]); break; } } return ast_when_stmt(f, token, cond, body, else_stmt); } AstNode *parse_return_stmt(AstFile *f) { if (f->curr_proc == NULL) { syntax_error(f->curr_token, "You cannot use a return statement in the file scope"); return ast_bad_stmt(f, f->curr_token, f->curr_token); } if (f->expr_level > 0) { syntax_error(f->curr_token, "You cannot use a return statement within an expression"); return ast_bad_stmt(f, f->curr_token, f->curr_token); } Token token = expect_token(f, Token_return); AstNodeArray results; if (f->curr_token.kind != Token_Semicolon && f->curr_token.kind != Token_CloseBrace) { results = parse_rhs_expr_list(f); } else { results = make_ast_node_array(f); } AstNode *end = NULL; if (results.count > 0) { end = results[results.count-1]; } expect_semicolon(f, end); return ast_return_stmt(f, token, results); } // AstNode *parse_give_stmt(AstFile *f) { // if (f->curr_proc == NULL) { // syntax_error(f->curr_token, "You cannot use a give statement in the file scope"); // return ast_bad_stmt(f, f->curr_token, f->curr_token); // } // if (f->expr_level == 0) { // syntax_error(f->curr_token, "A give statement must be used within an expression"); // return ast_bad_stmt(f, f->curr_token, f->curr_token); // } // Token token = expect_token(f, Token_give); // AstNodeArray results; // if (f->curr_token.kind != Token_Semicolon && f->curr_token.kind != Token_CloseBrace) { // results = parse_rhs_expr_list(f); // } else { // results = make_ast_node_array(f); // } // AstNode *ge = ast_give_expr(f, token, results); // expect_semicolon(f, ge); // return ast_expr_stmt(f, ge); // } AstNode *parse_for_stmt(AstFile *f) { if (f->curr_proc == NULL) { syntax_error(f->curr_token, "You cannot use a for statement in the file scope"); return ast_bad_stmt(f, f->curr_token, f->curr_token); } Token token = expect_token(f, Token_for); AstNode *init = NULL; AstNode *cond = NULL; AstNode *post = NULL; AstNode *body = NULL; bool is_range = false; if (f->curr_token.kind != Token_OpenBrace) { isize prev_level = f->expr_level; f->expr_level = -1; if (f->curr_token.kind != Token_Semicolon) { cond = parse_simple_stmt(f, StmtAllowFlag_In); if (cond->kind == AstNode_AssignStmt && cond->AssignStmt.op.kind == Token_in) { is_range = true; } } if (!is_range && f->curr_token.kind == Token_Semicolon) { next_token(f); init = cond; cond = NULL; if (f->curr_token.kind != Token_Semicolon) { cond = parse_simple_stmt(f, StmtAllowFlag_None); } expect_semicolon(f, cond); if (f->curr_token.kind != Token_OpenBrace) { post = parse_simple_stmt(f, StmtAllowFlag_None); } } f->expr_level = prev_level; } body = parse_block_stmt(f, false); if (is_range) { GB_ASSERT(cond->kind == AstNode_AssignStmt); Token in_token = cond->AssignStmt.op; AstNode *value = NULL; AstNode *index = NULL; switch (cond->AssignStmt.lhs.count) { case 1: value = cond->AssignStmt.lhs[0]; break; case 2: value = cond->AssignStmt.lhs[0]; index = cond->AssignStmt.lhs[1]; break; default: error_node(cond, "Expected at 1 or 2 identifiers"); return ast_bad_stmt(f, token, f->curr_token); } AstNode *rhs = NULL; if (cond->AssignStmt.rhs.count > 0) { rhs = cond->AssignStmt.rhs[0]; } return ast_range_stmt(f, token, value, index, in_token, rhs, body); } cond = convert_stmt_to_expr(f, cond, str_lit("boolean expression")); return ast_for_stmt(f, token, init, cond, post, body); } AstNode *parse_case_clause(AstFile *f, bool is_type) { Token token = f->curr_token; AstNodeArray list = make_ast_node_array(f); expect_token(f, Token_case); bool prev_allow_range = f->allow_range; f->allow_range = !is_type; if (f->curr_token.kind != Token_Colon) { list = parse_rhs_expr_list(f); } f->allow_range = prev_allow_range; expect_token(f, Token_Colon); // TODO(bill): Is this the best syntax? AstNodeArray stmts = parse_stmt_list(f); return ast_case_clause(f, token, list, stmts); } AstNode *parse_match_stmt(AstFile *f) { if (f->curr_proc == NULL) { syntax_error(f->curr_token, "You cannot use a match statement in the file scope"); return ast_bad_stmt(f, f->curr_token, f->curr_token); } Token token = expect_token(f, Token_match); AstNode *init = NULL; AstNode *tag = NULL; AstNode *body = NULL; Token open, close; bool is_type_match = false; AstNodeArray list = make_ast_node_array(f); if (f->curr_token.kind != Token_OpenBrace) { isize prev_level = f->expr_level; f->expr_level = -1; tag = parse_simple_stmt(f, StmtAllowFlag_In); if (tag->kind == AstNode_AssignStmt && tag->AssignStmt.op.kind == Token_in) { is_type_match = true; } else { if (allow_token(f, Token_Semicolon)) { init = tag; tag = NULL; if (f->curr_token.kind != Token_OpenBrace) { tag = parse_simple_stmt(f, StmtAllowFlag_None); } } } f->expr_level = prev_level; } open = expect_token(f, Token_OpenBrace); while (f->curr_token.kind == Token_case) { array_add(&list, parse_case_clause(f, is_type_match)); } close = expect_token(f, Token_CloseBrace); body = ast_block_stmt(f, list, open, close); if (!is_type_match) { tag = convert_stmt_to_expr(f, tag, str_lit("match expression")); return ast_match_stmt(f, token, init, tag, body); } else { return ast_type_match_stmt(f, token, tag, body); } } AstNode *parse_defer_stmt(AstFile *f) { if (f->curr_proc == NULL) { syntax_error(f->curr_token, "You cannot use a defer statement in the file scope"); return ast_bad_stmt(f, f->curr_token, f->curr_token); } Token token = expect_token(f, Token_defer); AstNode *stmt = parse_stmt(f); switch (stmt->kind) { case AstNode_EmptyStmt: syntax_error(token, "Empty statement after defer (e.g. `;`)"); break; case AstNode_DeferStmt: syntax_error(token, "You cannot defer a defer statement"); stmt = stmt->DeferStmt.stmt; break; case AstNode_ReturnStmt: syntax_error(token, "You cannot a return statement"); break; } return ast_defer_stmt(f, token, stmt); } AstNode *parse_asm_stmt(AstFile *f) { Token token = expect_token(f, Token_asm); bool is_volatile = false; Token open, close, code_string; open = expect_token(f, Token_OpenBrace); code_string = expect_token(f, Token_String); AstNode *output_list = NULL; AstNode *input_list = NULL; AstNode *clobber_list = NULL; isize output_count = 0; isize input_count = 0; isize clobber_count = 0; // TODO(bill): Finish asm statement and determine syntax // if (f->curr_token.kind != Token_CloseBrace) { // expect_token(f, Token_Colon); // } close = expect_token(f, Token_CloseBrace); return ast_asm_stmt(f, token, is_volatile, open, close, code_string, output_list, input_list, clobber_list, output_count, input_count, clobber_count); } AstNode *parse_stmt(AstFile *f) { AstNode *s = NULL; Token token = f->curr_token; switch (token.kind) { // Operands case Token_context: case Token_Ident: case Token_Integer: case Token_Float: case Token_Imag: case Token_Rune: case Token_String: case Token_OpenParen: case Token_Pointer: // Unary Operators case Token_Add: case Token_Sub: case Token_Xor: case Token_Not: case Token_And: s = parse_simple_stmt(f, StmtAllowFlag_Label); expect_semicolon(f, s); return s; case Token_if: return parse_if_stmt(f); case Token_when: return parse_when_stmt(f); case Token_for: return parse_for_stmt(f); case Token_match: return parse_match_stmt(f); case Token_defer: return parse_defer_stmt(f); case Token_asm: return parse_asm_stmt(f); case Token_return: return parse_return_stmt(f); // case Token_give: return parse_give_stmt(f); case Token_break: case Token_continue: case Token_fallthrough: { AstNode *label = NULL; next_token(f); if (token.kind != Token_fallthrough && f->curr_token.kind == Token_Ident) { label = parse_ident(f); } s = ast_branch_stmt(f, token, label); expect_semicolon(f, s); return s; } case Token_using: { // TODO(bill): Make using statements better Token token = expect_token(f, Token_using); AstNodeArray list = parse_lhs_expr_list(f); if (list.count == 0) { syntax_error(token, "Illegal use of `using` statement"); expect_semicolon(f, NULL); return ast_bad_stmt(f, token, f->curr_token); } if (f->curr_token.kind != Token_Colon) { expect_semicolon(f, list[list.count-1]); return ast_using_stmt(f, token, list); } AstNode *decl = parse_value_decl(f, list); expect_semicolon(f, decl); if (decl->kind == AstNode_ValueDecl) { #if 1 if (!decl->ValueDecl.is_var) { syntax_error(token, "`using` may not be applied to constant declarations"); return decl; } if (f->curr_proc == NULL) { syntax_error(token, "`using` is not allowed at the file scope"); } else { decl->ValueDecl.flags |= VarDeclFlag_using; } #else decl->ValueDecl.flags |= VarDeclFlag_using; #endif return decl; } syntax_error(token, "Illegal use of `using` statement"); return ast_bad_stmt(f, token, f->curr_token); } break; #if 1 case Token_immutable: { Token token = expect_token(f, Token_immutable); AstNode *node = parse_stmt(f); if (node->kind == AstNode_ValueDecl) { if (!node->ValueDecl.is_var) { syntax_error(token, "`immutable` may not be applied to constant declarations"); } else { node->ValueDecl.flags |= VarDeclFlag_immutable; } return node; } syntax_error(token, "`immutable` may only be applied to a variable declaration"); return ast_bad_stmt(f, token, f->curr_token); } break; #endif case Token_push_allocator: { next_token(f); isize prev_level = f->expr_level; f->expr_level = -1; AstNode *expr = parse_expr(f, false); f->expr_level = prev_level; AstNode *body = parse_block_stmt(f, false); return ast_push_allocator(f, token, expr, body); } break; case Token_push_context: { next_token(f); isize prev_level = f->expr_level; f->expr_level = -1; AstNode *expr = parse_expr(f, false); f->expr_level = prev_level; AstNode *body = parse_block_stmt(f, false); return ast_push_context(f, token, expr, body); } break; case Token_Hash: { AstNode *s = NULL; Token hash_token = expect_token(f, Token_Hash); Token name = expect_token(f, Token_Ident); String tag = name.string; if (tag == "import") { AstNode *cond = NULL; Token import_name = {}; switch (f->curr_token.kind) { case Token_Period: import_name = f->curr_token; import_name.kind = Token_Ident; next_token(f); break; case Token_Ident: import_name = f->curr_token; next_token(f); break; default: import_name.pos = f->curr_token.pos; break; } if (import_name.string == "_") { syntax_error(import_name, "Illegal #import name: `_`"); } Token file_path = expect_token_after(f, Token_String, "#import"); if (allow_token(f, Token_when)) { cond = parse_expr(f, false); } AstNode *decl = NULL; if (f->curr_proc != NULL) { syntax_error(import_name, "You cannot use `#import` within a procedure. This must be done at the file scope"); decl = ast_bad_decl(f, import_name, file_path); } else { decl = ast_import_decl(f, hash_token, true, file_path, import_name, cond); } expect_semicolon(f, decl); return decl; } else if (tag == "load") { AstNode *cond = NULL; Token file_path = expect_token_after(f, Token_String, "#load"); Token import_name = file_path; import_name.string = str_lit("."); if (allow_token(f, Token_when)) { cond = parse_expr(f, false); } AstNode *decl = NULL; if (f->curr_proc != NULL) { syntax_error(import_name, "You cannot use `#load` within a procedure. This must be done at the file scope"); decl = ast_bad_decl(f, import_name, file_path); } else { decl = ast_import_decl(f, hash_token, false, file_path, import_name, cond); } expect_semicolon(f, decl); return decl; } else if (tag == "shared_global_scope") { if (f->curr_proc == NULL) { f->is_global_scope = true; s = ast_empty_stmt(f, f->curr_token); } else { syntax_error(token, "You cannot use #shared_global_scope within a procedure. This must be done at the file scope"); s = ast_bad_decl(f, token, f->curr_token); } expect_semicolon(f, s); return s; } else if (tag == "foreign_system_library") { AstNode *cond = NULL; Token lib_name = {}; switch (f->curr_token.kind) { case Token_Ident: lib_name = f->curr_token; next_token(f); break; default: lib_name.pos = f->curr_token.pos; break; } if (lib_name.string == "_") { syntax_error(lib_name, "Illegal #foreign_library name: `_`"); } Token file_path = expect_token(f, Token_String); if (allow_token(f, Token_when)) { cond = parse_expr(f, false); } if (f->curr_proc == NULL) { s = ast_foreign_library(f, hash_token, file_path, lib_name, cond, true); } else { syntax_error(token, "You cannot use #foreign_system_library within a procedure. This must be done at the file scope"); s = ast_bad_decl(f, token, file_path); } expect_semicolon(f, s); return s; } else if (tag == "foreign_library") { AstNode *cond = NULL; Token lib_name = {}; switch (f->curr_token.kind) { case Token_Ident: lib_name = f->curr_token; next_token(f); break; default: lib_name.pos = f->curr_token.pos; break; } if (lib_name.string == "_") { syntax_error(lib_name, "Illegal #foreign_library name: `_`"); } Token file_path = expect_token(f, Token_String); if (allow_token(f, Token_when)) { cond = parse_expr(f, false); } if (f->curr_proc == NULL) { s = ast_foreign_library(f, hash_token, file_path, lib_name, cond, false); } else { syntax_error(token, "You cannot use #foreign_library within a procedure. This must be done at the file scope"); s = ast_bad_decl(f, token, file_path); } expect_semicolon(f, s); return s; } else if (tag == "thread_local") { AstNode *s = parse_stmt(f); if (s->kind == AstNode_ValueDecl) { if (!s->ValueDecl.is_var) { syntax_error(token, "`thread_local` may not be applied to constant declarations"); } if (f->curr_proc != NULL) { syntax_error(token, "`thread_local` is only allowed at the file scope"); } else { s->ValueDecl.flags |= VarDeclFlag_thread_local; } return s; } syntax_error(token, "`thread_local` may only be applied to a variable declaration"); return ast_bad_stmt(f, token, f->curr_token); } else if (tag == "bounds_check") { s = parse_stmt(f); s->stmt_state_flags |= StmtStateFlag_bounds_check; if ((s->stmt_state_flags & StmtStateFlag_no_bounds_check) != 0) { syntax_error(token, "#bounds_check and #no_bounds_check cannot be applied together"); } return s; } else if (tag == "no_bounds_check") { s = parse_stmt(f); s->stmt_state_flags |= StmtStateFlag_no_bounds_check; if ((s->stmt_state_flags & StmtStateFlag_bounds_check) != 0) { syntax_error(token, "#bounds_check and #no_bounds_check cannot be applied together"); } return s; } if (tag == "include") { syntax_error(token, "#include is not a valid import declaration kind. Use #load instead"); s = ast_bad_stmt(f, token, f->curr_token); } else { syntax_error(token, "Unknown tag directive used: `%.*s`", LIT(tag)); s = ast_bad_stmt(f, token, f->curr_token); } fix_advance_to_next_stmt(f); return s; } break; case Token_OpenBrace: return parse_block_stmt(f, false); case Token_Semicolon: s = ast_empty_stmt(f, token); next_token(f); return s; } syntax_error(token, "Expected a statement, got `%.*s`", LIT(token_strings[token.kind])); fix_advance_to_next_stmt(f); return ast_bad_stmt(f, token, f->curr_token); } AstNodeArray parse_stmt_list(AstFile *f) { AstNodeArray list = make_ast_node_array(f); while (f->curr_token.kind != Token_case && f->curr_token.kind != Token_CloseBrace && f->curr_token.kind != Token_EOF) { AstNode *stmt = parse_stmt(f); if (stmt && stmt->kind != AstNode_EmptyStmt) { array_add(&list, stmt); if (stmt->kind == AstNode_ExprStmt && stmt->ExprStmt.expr != NULL && stmt->ExprStmt.expr->kind == AstNode_ProcLit) { syntax_error_node(stmt, "Procedure literal evaluated but not used"); } } } return list; } ParseFileError init_ast_file(AstFile *f, String fullpath) { fullpath = string_trim_whitespace(fullpath); // Just in case if (!string_has_extension(fullpath, str_lit("odin"))) { return ParseFile_WrongExtension; } TokenizerInitError err = init_tokenizer(&f->tokenizer, fullpath); if (err == TokenizerInit_None) { array_init(&f->tokens, heap_allocator()); { for (;;) { Token token = tokenizer_get_token(&f->tokenizer); if (token.kind == Token_Invalid) { return ParseFile_InvalidToken; } array_add(&f->tokens, token); if (token.kind == Token_EOF) { break; } } } f->curr_token_index = 0; f->prev_token = f->tokens[f->curr_token_index]; f->curr_token = f->tokens[f->curr_token_index]; // NOTE(bill): Is this big enough or too small? isize arena_size = gb_size_of(AstNode); arena_size *= 2*f->tokens.count; gb_arena_init_from_allocator(&f->arena, heap_allocator(), arena_size); f->curr_proc = NULL; return ParseFile_None; } switch (err) { case TokenizerInit_NotExists: return ParseFile_NotFound; case TokenizerInit_Permission: return ParseFile_Permission; case TokenizerInit_Empty: return ParseFile_EmptyFile; } return ParseFile_InvalidFile; } void destroy_ast_file(AstFile *f) { gb_arena_free(&f->arena); array_free(&f->tokens); gb_free(heap_allocator(), f->tokenizer.fullpath.text); destroy_tokenizer(&f->tokenizer); } bool init_parser(Parser *p) { array_init(&p->files, heap_allocator()); array_init(&p->imports, heap_allocator()); gb_mutex_init(&p->mutex); return true; } void destroy_parser(Parser *p) { // TODO(bill): Fix memory leak for_array(i, p->files) { destroy_ast_file(&p->files[i]); } #if 0 for_array(i, p->imports) { // gb_free(heap_allocator(), p->imports[i].text); } #endif array_free(&p->files); array_free(&p->imports); gb_mutex_destroy(&p->mutex); } // NOTE(bill): Returns true if it's added bool try_add_import_path(Parser *p, String path, String rel_path, TokenPos pos) { gb_mutex_lock(&p->mutex); path = string_trim_whitespace(path); rel_path = string_trim_whitespace(rel_path); for_array(i, p->imports) { String import = p->imports[i].path; if (import == path) { return false; } } ImportedFile item; item.path = path; item.rel_path = rel_path; item.pos = pos; array_add(&p->imports, item); gb_mutex_unlock(&p->mutex); return true; } gb_global Rune illegal_import_runes[] = { '"', '\'', '`', ' ', '\t', '\r', '\n', '\v', '\f', '\\', // NOTE(bill): Disallow windows style filepaths '!', '$', '%', '^', '&', '*', '(', ')', '=', '+', '[', ']', '{', '}', ';', ':', '#', '|', ',', '<', '>', '?', }; bool is_import_path_valid(String path) { if (path.len > 0) { u8 *start = path.text; u8 *end = path.text + path.len; u8 *curr = start; while (curr < end) { isize width = 1; Rune r = curr[0]; if (r >= 0x80) { width = gb_utf8_decode(curr, end-curr, &r); if (r == GB_RUNE_INVALID && width == 1) { return false; } else if (r == GB_RUNE_BOM && curr-start > 0) { return false; } } for (isize i = 0; i < gb_count_of(illegal_import_runes); i++) { if (r == illegal_import_runes[i]) { return false; } } curr += width; } return true; } return false; } void parse_setup_file_decls(Parser *p, AstFile *f, String base_dir, AstNodeArray decls) { for_array(i, decls) { AstNode *node = decls[i]; if (!is_ast_node_decl(node) && node->kind != AstNode_BadStmt && node->kind != AstNode_EmptyStmt) { // NOTE(bill): Sanity check syntax_error_node(node, "Only declarations are allowed at file scope %.*s", LIT(ast_node_strings[node->kind])); } else if (node->kind == AstNode_ImportDecl) { ast_node(id, ImportDecl, node); String collection_name = {}; String oirignal_string = id->relpath.string; String file_str = id->relpath.string; gbAllocator allocator = heap_allocator(); // TODO(bill): Change this allocator String import_file = {}; #if 0 isize colon_pos = -1; for (isize j = 0; j < file_str.len; j++) { if (file_str[j] == ':') { colon_pos = j; break; } } if (colon_pos > 0) { collection_name = make_string(file_str.text, colon_pos); file_str.text += colon_pos+1; file_str.len -= colon_pos+1; } if (collection_name.len == 0) { syntax_error_node(node, "Missing import collection for path: `%.*s`", LIT(oirignal_string)); decls[i] = ast_bad_decl(f, id->relpath, id->relpath); continue; } if (collection_name == "core") { String abs_path = get_fullpath_core(allocator, file_str); if (gb_file_exists(cast(char *)abs_path.text)) { // NOTE(bill): This should be null terminated import_file = abs_path; } } else if (collection_name == "local") { String rel_path = get_fullpath_relative(allocator, base_dir, file_str); if (gb_file_exists(cast(char *)rel_path.text)) { // NOTE(bill): This should be null terminated import_file = rel_path; } } else { syntax_error_node(node, "Unknown import collection: `%.*s`", LIT(collection_name)); decls[i] = ast_bad_decl(f, id->relpath, id->relpath); continue; } if (!is_import_path_valid(file_str)) { if (id->is_import) { syntax_error_node(node, "Invalid import path: `%.*s`", LIT(file_str)); } else { syntax_error_node(node, "Invalid include path: `%.*s`", LIT(file_str)); } // NOTE(bill): It's a naughty name decls[i] = ast_bad_decl(f, id->relpath, id->relpath); continue; } #else if (!is_import_path_valid(file_str)) { if (id->is_import) { syntax_error_node(node, "Invalid import path: `%.*s`", LIT(file_str)); } else { syntax_error_node(node, "Invalid include path: `%.*s`", LIT(file_str)); } // NOTE(bill): It's a naughty name decls[i] = ast_bad_decl(f, id->relpath, id->relpath); continue; } String rel_path = get_fullpath_relative(allocator, base_dir, file_str); import_file = rel_path; if (!gb_file_exists(cast(char *)rel_path.text)) { // NOTE(bill): This should be null terminated String abs_path = get_fullpath_core(allocator, file_str); if (gb_file_exists(cast(char *)abs_path.text)) { import_file = abs_path; } } #endif id->fullpath = import_file; try_add_import_path(p, import_file, file_str, ast_node_token(node).pos); } else if (node->kind == AstNode_ForeignLibrary) { AstNodeForeignLibrary *fl = &node->ForeignLibrary; String file_str = fl->filepath.string; if (!is_import_path_valid(file_str)) { if (fl->is_system) { syntax_error_node(node, "Invalid `foreign_system_library` path"); } else { syntax_error_node(node, "Invalid `foreign_library` path"); } // NOTE(bill): It's a naughty name f->decls[i] = ast_bad_decl(f, fl->token, fl->token); continue; } fl->base_dir = base_dir; } } } void parse_file(Parser *p, AstFile *f) { String filepath = f->tokenizer.fullpath; String base_dir = filepath; for (isize i = filepath.len-1; i >= 0; i--) { if (base_dir[i] == '\\' || base_dir[i] == '/') { break; } base_dir.len--; } while (f->curr_token.kind == Token_Comment) { next_token(f); } f->decls = parse_stmt_list(f); parse_setup_file_decls(p, f, base_dir, f->decls); } ParseFileError parse_files(Parser *p, char *init_filename) { char *fullpath_str = gb_path_get_full_name(heap_allocator(), init_filename); String init_fullpath = make_string_c(fullpath_str); TokenPos init_pos = {}; ImportedFile init_imported_file = {init_fullpath, init_fullpath, init_pos}; { String s = get_fullpath_core(heap_allocator(), str_lit("_preload.odin")); ImportedFile runtime_file = {s, s, init_pos}; array_add(&p->imports, runtime_file); } { String s = get_fullpath_core(heap_allocator(), str_lit("_soft_numbers.odin")); ImportedFile runtime_file = {s, s, init_pos}; array_add(&p->imports, runtime_file); } array_add(&p->imports, init_imported_file); p->init_fullpath = init_fullpath; for_array(i, p->imports) { ImportedFile imported_file = p->imports[i]; String import_path = imported_file.path; String import_rel_path = imported_file.rel_path; TokenPos pos = imported_file.pos; AstFile file = {}; ParseFileError err = init_ast_file(&file, import_path); if (err != ParseFile_None) { if (err == ParseFile_EmptyFile) { if (import_path == init_fullpath) { gb_printf_err("Initial file is empty - %.*s\n", LIT(init_fullpath)); gb_exit(1); } return ParseFile_None; } if (pos.line != 0) { gb_printf_err("%.*s(%td:%td) ", LIT(pos.file), pos.line, pos.column); } gb_printf_err("Failed to parse file: %.*s\n\t", LIT(import_rel_path)); switch (err) { case ParseFile_WrongExtension: gb_printf_err("Invalid file extension: File must have the extension `.odin`"); break; case ParseFile_InvalidFile: gb_printf_err("Invalid file or cannot be found"); break; case ParseFile_Permission: gb_printf_err("File permissions problem"); break; case ParseFile_NotFound: gb_printf_err("File cannot be found (`%.*s`)", LIT(import_path)); break; case ParseFile_InvalidToken: gb_printf_err("Invalid token found in file"); break; } gb_printf_err("\n"); return err; } parse_file(p, &file); { gb_mutex_lock(&p->mutex); file.id = p->files.count; array_add(&p->files, file); p->total_line_count += file.tokenizer.line_count; gb_mutex_unlock(&p->mutex); } } for_array(i, p->files) { p->total_token_count += p->files[i].tokens.count; } return ParseFile_None; }