Split code generation from the ui

2024-03-07 09:15:11 +01:00 · 2024-03-07 09:15:11 +01:00 · 4ac29669ad
commit 4ac29669ad
parent f84fd91426
26 changed files with 279 additions and 336 deletions
--- a/CMakeLists.txt
+++ b/CMakeLists.txt
@ -8,23 +8,24 @@ set(CMAKE_CXX_STANDARD 17)
 find_package(Boost COMPONENTS program_options REQUIRED)
 include_directories(${Boost_INCLUDE_DIR})
-add_executable(tester tests/runner.cpp include/elna/tester.hpp)
+add_executable(tester tests/tester.cpp include/elna/tester.hpp)
 target_include_directories(tester PRIVATE include)
 add_executable(elnsh shell/main.cpp
-	shell/interactive.cpp include/elna/interactive.hpp
+	shell/interactive.cpp include/elna/shell/interactive.hpp
-	shell/history.cpp include/elna/history.hpp
+	shell/history.cpp include/elna/shell/history.hpp
-	shell/state.cpp include/elna/state.hpp
+	shell/state.cpp include/elna/shell/state.hpp
 )
 target_include_directories(elnsh PRIVATE include)
-add_executable(elna source/main.cpp
+add_executable(elna cli/main.cpp
 	source/lexer.cpp include/elna/source/lexer.hpp
 	source/parser.cpp include/elna/source/parser.hpp
-	source/result.cpp include/elna/result.hpp
+	source/result.cpp include/elna/source/result.hpp
-	source/riscv.cpp include/elna/riscv.hpp
+	source/ir.cpp include/elna/source/ir.hpp
-	source/ir.cpp include/elna/ir.hpp
+	backend/riscv.cpp include/elna/backend/riscv.hpp
-	source/cl.cpp include/elna/cl.hpp
+	backend/target.cpp include/elna/backend/target.hpp
 	cli/cl.cpp include/elna/cli/cl.hpp
 )
 target_include_directories(elna PRIVATE include)
 target_link_libraries(elna LINK_PUBLIC ${Boost_LIBRARIES})
--- a/14
+++ b/14
@ -4,14 +4,15 @@
 - Make writing ELF independent from the code generation.
 - Argument parsing.
 - Whitespaces are checked twice, in the source class and by lexing.
 - Replace pointer and length with vectors and strings.
 - Choose one name for runner.cpp and tester.hpp.
 - Move argument handling into the cl module.
 - Catch exceptions thrown by the argument parser and print them normally.
 - cmake clean target.
 - Division.
 - Expressions contain one or more terms. Currently it parses another expression on the right side.
 - Multiple factors.
 - Put riscv code into the backend namespace.
 - Rename riscv backend structs to be snake case.
 - Make reference and Target be nested types of the visitor.
 - Rename visitors to snake case.
 - The backend visitor seems to generate code before the prologue.
 # Shell
 - Persist the history.
@ -30,8 +31,3 @@
 - Add a bar with additional information under the prompt (edit_bar), like the hostname.
 - Show current time in the prompt.
 ## Input
 - DEL handling.
 - Starting long running process and killing it with Ctrl-C kills the shell.
--- a/backend/riscv.cpp
+++ b/backend/riscv.cpp
@ -1,8 +1,7 @@
-#include "elna/riscv.hpp"
+#include "elna/backend/riscv.hpp"
 #include <memory>
 #include <cstring>
-namespace elna
+namespace elna::backend
 {
    Instruction::Instruction(BaseOpcode opcode)
    {
@ -48,14 +47,14 @@ namespace elna
        return *this;
    }
-    const std::byte *Instruction::cbegin()
+    const std::byte *Instruction::cbegin() const
    {
-        return reinterpret_cast<std::byte *>(&this->instruction);
+        return reinterpret_cast<const std::byte *>(&this->instruction);
    }
-    const std::byte *Instruction::cend()
+    const std::byte *Instruction::cend() const
    {
-        return reinterpret_cast<std::byte *>(&this->instruction) + sizeof(this->instruction);
+        return reinterpret_cast<const std::byte *>(&this->instruction) + sizeof(this->instruction);
    }
    void RiscVVisitor::visit(source::definition *definition)
@ -69,62 +68,55 @@ namespace elna
        {
            block_definition->accept(this);
        }
        this->instructionsLength += 4;
        this->instructions = reinterpret_cast<Instruction *>(
                realloc(this->instructions, this->instructionsLength * sizeof(Instruction)));
        block->body().accept(this);
        // Prologue.
        const uint stackSize = static_cast<std::uint32_t>(variableCounter * 4 + 12);
-        this->instructions[0] = Instruction(BaseOpcode::opImm)
+        this->instructions.push_back(Instruction(BaseOpcode::opImm)
-            .i(XRegister::sp, Funct3::addi, XRegister::sp, -stackSize);
+            .i(XRegister::sp, Funct3::addi, XRegister::sp, -stackSize));
-        this->instructions[1] = Instruction(BaseOpcode::store)
+        this->instructions.push_back(Instruction(BaseOpcode::store)
-            .s(stackSize - 4, Funct3::sw, XRegister::sp, XRegister::s0);
+            .s(stackSize - 4, Funct3::sw, XRegister::sp, XRegister::s0));
-        this->instructions[2] = Instruction(BaseOpcode::store)
+        this->instructions.push_back(Instruction(BaseOpcode::store)
-            .s(stackSize - 8, Funct3::sw, XRegister::sp, XRegister::ra);
+            .s(stackSize - 8, Funct3::sw, XRegister::sp, XRegister::ra));
-        this->instructions[3] = Instruction(BaseOpcode::opImm)
+        this->instructions.push_back(Instruction(BaseOpcode::opImm)
-            .i(XRegister::s0, Funct3::addi, XRegister::sp, stackSize);
+            .i(XRegister::s0, Funct3::addi, XRegister::sp, stackSize));
        this->instructions = reinterpret_cast<Instruction*>(
            realloc(this->instructions, (this->instructionsLength + 10) * sizeof(Instruction)));
        // Print the result.
-        this->instructions[instructionsLength++] = Instruction(BaseOpcode::opImm)
+        this->instructions.push_back(Instruction(BaseOpcode::opImm)
-            .i(XRegister::a1, Funct3::addi, XRegister::a0, 0);
+            .i(XRegister::a1, Funct3::addi, XRegister::a0, 0));
        this->references[0] = Reference();
        this->references[0].name = ".CL0";
-        this->references[0].offset = instructionsLength * 4;
+        this->references[0].offset = instructions.size() * 4;
        this->references[0].target = Target::high20;
-        this->instructions[instructionsLength++] = Instruction(BaseOpcode::lui).u(XRegister::a5, 0);
+        this->instructions.push_back(Instruction(BaseOpcode::lui).u(XRegister::a5, 0));
        this->references[1] = Reference();
        this->references[1].name = ".CL0";
-        this->references[1].offset = instructionsLength * 4;
+        this->references[1].offset = instructions.size() * 4;
        this->references[1].target = Target::lower12i;
-        this->instructions[instructionsLength++] = Instruction(BaseOpcode::opImm)
+        this->instructions.push_back(Instruction(BaseOpcode::opImm)
-            .i(XRegister::a0, Funct3::addi, XRegister::a5, 0);
+            .i(XRegister::a0, Funct3::addi, XRegister::a5, 0));
        this->references[2] = Reference();
        this->references[2].name = "printf";
-        this->references[2].offset = instructionsLength * 4;
+        this->references[2].offset = instructions.size() * 4;
        this->references[2].target = Target::text;
-        this->instructions[instructionsLength++] = Instruction(BaseOpcode::auipc).u(XRegister::ra, 0);
+        this->instructions.push_back(Instruction(BaseOpcode::auipc).u(XRegister::ra, 0));
-        this->instructions[instructionsLength++] = Instruction(BaseOpcode::jalr)
+        this->instructions.push_back(Instruction(BaseOpcode::jalr)
-            .i(XRegister::ra, Funct3::jalr, XRegister::ra, 0);
+            .i(XRegister::ra, Funct3::jalr, XRegister::ra, 0));
        // Set the return value (0).
-        this->instructions[instructionsLength++] = Instruction(BaseOpcode::op)
+        this->instructions.push_back(Instruction(BaseOpcode::op)
-            .r(XRegister::a0, Funct3::_and, XRegister::zero, XRegister::zero);
+            .r(XRegister::a0, Funct3::_and, XRegister::zero, XRegister::zero));
        // Epilogue.
-        this->instructions[instructionsLength++] = Instruction(BaseOpcode::load)
+        this->instructions.push_back(Instruction(BaseOpcode::load)
-            .i(XRegister::s0, Funct3::lw, XRegister::sp, stackSize - 4);
+            .i(XRegister::s0, Funct3::lw, XRegister::sp, stackSize - 4));
-        this->instructions[instructionsLength++] = Instruction(BaseOpcode::load)
+        this->instructions.push_back(Instruction(BaseOpcode::load)
-            .i(XRegister::ra, Funct3::lw, XRegister::sp, stackSize - 8);
+            .i(XRegister::ra, Funct3::lw, XRegister::sp, stackSize - 8));
-        this->instructions[instructionsLength++] = Instruction(BaseOpcode::opImm)
+        this->instructions.push_back(Instruction(BaseOpcode::opImm)
-                .i(XRegister::sp, Funct3::addi, XRegister::sp, stackSize);
+                .i(XRegister::sp, Funct3::addi, XRegister::sp, stackSize));
-        this->instructions[instructionsLength++] = Instruction(BaseOpcode::jalr)
+        this->instructions.push_back(Instruction(BaseOpcode::jalr)
-            .i(XRegister::zero, Funct3::jalr, XRegister::ra, 0);
+            .i(XRegister::zero, Funct3::jalr, XRegister::ra, 0));
    }
    void RiscVVisitor::visit(source::bang_statement *statement)
@ -132,28 +124,24 @@ namespace elna
        statement->body().accept(this);
    }
-    void RiscVVisitor::visit(source::variable *variable)
+    void RiscVVisitor::visit(source::variable_expression *variable)
    {
        const auto freeRegister = this->registerInUse ? XRegister::a0 : XRegister::t0;
-        ++this->instructionsLength;
+        this->instructions.push_back(
        this->instructions = reinterpret_cast<Instruction *>(
                realloc(this->instructions, this->instructionsLength * sizeof(Instruction)));
        this->instructions[this->instructionsLength - 1] =
            Instruction(BaseOpcode::opImm) // movl $x, %eax; where $x is a number.
-                .i(freeRegister, Funct3::addi, XRegister::zero, constants[variable->name()]);
+                .i(freeRegister, Funct3::addi, XRegister::zero, constants[variable->name()])
        );
    }
    void RiscVVisitor::visit(source::integer_literal *number)
    {
        const auto freeRegister = this->registerInUse ? XRegister::a0 : XRegister::t0;
-        ++this->instructionsLength;
+        this->instructions.push_back(
        this->instructions = reinterpret_cast<Instruction *>(
                realloc(this->instructions, this->instructionsLength * sizeof(Instruction)));
        this->instructions[this->instructionsLength - 1] =
            Instruction(BaseOpcode::opImm) // movl $x, %eax; where $x is a number.
-                .i(freeRegister, Funct3::addi, XRegister::zero, number->number());
+                .i(freeRegister, Funct3::addi, XRegister::zero, number->number())
        );
    }
    void RiscVVisitor::visit(source::binary_expression *expression)
@ -163,59 +151,35 @@ namespace elna
        this->registerInUse = true;
        expression->lhs().accept(this);
-        ++this->instructionsLength;
+        this->instructions.push_back( // movl %eax, -x(%rbp); where x is a number.
        this->instructions = reinterpret_cast<Instruction *>(
                realloc(this->instructions, this->instructionsLength * sizeof(Instruction)));
        this->instructions[instructionsLength - 1] = // movl %eax, -x(%rbp); where x is a number.
            Instruction(BaseOpcode::store)
-                .s(static_cast<std::uint32_t>(this->variableCounter * 4), Funct3::sw, XRegister::sp, XRegister::a0);
+                .s(static_cast<std::uint32_t>(this->variableCounter * 4), Funct3::sw, XRegister::sp, XRegister::a0)
        );
        auto lhs_stack_position = ++this->variableCounter;
        this->registerInUse = false;
        expression->rhs().accept(this);
-        this->instructionsLength += 2;
+         this->instructions.push_back(Instruction(BaseOpcode::load)
        this->instructions = reinterpret_cast<Instruction *>(
                realloc(this->instructions, this->instructionsLength * sizeof(Instruction)));
         this->instructions[instructionsLength - 2] = Instruction(BaseOpcode::load)
            .i(XRegister::a0, Funct3::lw, XRegister::sp,
-                static_cast<std::int8_t>((lhs_stack_position - 1) * 4));
+                static_cast<std::int8_t>((lhs_stack_position - 1) * 4))
        );
        // Calculate the result and assign it to a variable on the stack.
        switch (expression->operation())
        {
            case source::binary_operator::sum:
-                this->instructions[instructionsLength - 1] = Instruction(BaseOpcode::op)
+                this->instructions.push_back(Instruction(BaseOpcode::op)
-                    .r(lhs_register, Funct3::add, XRegister::a0, XRegister::t0);
+                    .r(lhs_register, Funct3::add, XRegister::a0, XRegister::t0));
                break;
            case source::binary_operator::subtraction:
-                this->instructions[instructionsLength - 1] = Instruction(BaseOpcode::op)
+                this->instructions.push_back(Instruction(BaseOpcode::op)
-                    .r(lhs_register, Funct3::sub, XRegister::a0, XRegister::t0, Funct7::sub);
+                    .r(lhs_register, Funct3::sub, XRegister::a0, XRegister::t0, Funct7::sub));
                break;
            case source::binary_operator::multiplication:
-                this->instructions[instructionsLength - 1] = Instruction(BaseOpcode::op)
+                this->instructions.push_back(Instruction(BaseOpcode::op)
-                    .r(lhs_register, Funct3::mul, XRegister::a0, XRegister::t0, Funct7::muldiv);
+                    .r(lhs_register, Funct3::mul, XRegister::a0, XRegister::t0, Funct7::muldiv));
                break;
        }
    }
    Symbol writeNext(source::block *ast)
    {
        auto visitor = std::make_unique<RiscVVisitor>();
        visitor->visit(ast);
        Symbol program{ "main" };
        for (std::size_t i = 0; i < 3; ++i)
        {
            program.symbols[i] = visitor->references[i];
        }
        for (std::size_t i = 0; i < visitor->instructionsLength; ++i)
        {
            program.text.insert(program.text.cend(),
                    visitor->instructions[i].cbegin(), visitor->instructions[i].cend());
        }
        return program;
    }
 }
--- a/backend/target.cpp
+++ b/backend/target.cpp
@ -1,69 +1,30 @@
-#include "elna/cl.hpp"
+#include "elna/backend/target.hpp"
-#include "elna/result.hpp"
+#include "elna/backend/riscv.hpp"
 #include "elna/riscv.hpp"
 #include <cstddef>
 #include <elfio/elfio.hpp>
 #include <fstream>
 #include <sstream>
-namespace elna
+namespace elna::backend
 {
-    char *readSource(const char *source)
+    void riscv32_elf(source::block *ast, const std::filesystem::path& out_file)
    {
-        const std::size_t bufferSize = 255;
+        auto visitor = std::make_unique<RiscVVisitor>();
        visitor->visit(ast);
        std::ifstream input_stream{ source };
        std::stringstream buffer;
        buffer << input_stream.rdbuf();
        input_stream.close();
        std::string contents = buffer.str();
        char *result = reinterpret_cast<char *>(malloc(contents.size() + 1));
        std::copy(std::cbegin(contents), std::cend(contents), result);
        result[contents.size()] = '\0';
        return result;
    }
    int compile(const std::filesystem::path& in_file, const std::filesystem::path& out_file)
    {
        ELFIO::elfio writer;
        const ELFIO::Elf_Word instructions_size = visitor->instructions.size() * sizeof(Instruction);
        // You can't proceed before this function call!
        writer.create(ELFIO::ELFCLASS32, ELFIO::ELFDATA2LSB);
        writer.set_os_abi(ELFIO::ELFOSABI_NONE);
        writer.set_type(ELFIO::ET_REL);
        writer.set_machine(ELFIO::EM_RISCV);
        auto sourceText = readSource(in_file.c_str());
        if (sourceText == nullptr)
        {
            return 3;
        }
        size_t tokensCount{ 0 };
        auto lex_result = source::lex(sourceText);
        free(sourceText);
        if (lex_result.has_errors())
        {
            for (const auto& compile_error : lex_result.errors())
            {
                printf("%lu:%lu: %s\n", compile_error.line(), compile_error.column(), compile_error.what());
            }
            return 1;
        }
        auto ast = source::parser(lex_result.success()).parse();
        if (ast == nullptr)
        {
            return 2;
        }
        auto program = writeNext(ast.get());
        // Create code section
        ELFIO::section* text_sec = writer.sections.add(".text");
        text_sec->set_type(ELFIO::SHT_PROGBITS);
        text_sec->set_flags(ELFIO::SHF_ALLOC | ELFIO::SHF_EXECINSTR);
        text_sec->set_addr_align(0x1);
-        text_sec->set_data(reinterpret_cast<const char *>(program.text.data()), program.text.size());
+        text_sec->set_data(reinterpret_cast<const char *>(visitor->instructions.data()),
                instructions_size);
        // Create string table section
        ELFIO::section* str_sec = writer.sections.add(".strtab");
@ -93,7 +54,7 @@ namespace elna
        ELFIO::symbol_section_accessor syma(writer, sym_sec);
        auto label_sym = syma.add_symbol(stra, ".CL0", 0x00000000, strlen("%d\n") + 1,
                ELFIO::STB_LOCAL, ELFIO::STT_NOTYPE, 0, ro_sec->get_index());
-        syma.add_symbol(stra, program.name, 0x00000000, program.text.size(),
+        syma.add_symbol(stra, "main", 0x00000000, instructions_size,
                ELFIO::STB_GLOBAL, ELFIO::STT_FUNC, 0, text_sec->get_index());
        auto printf_sym = syma.add_symbol(stra, "printf", 0x00000000, 0,
                ELFIO::STB_GLOBAL, ELFIO::STT_NOTYPE, 0, ELFIO::SHN_UNDEF);
@ -110,16 +71,14 @@ namespace elna
        // Create relocation table writer
        ELFIO::relocation_section_accessor rela(writer, rel_sec);
        // Add relocation entry (adjust address at offset 11)
-        rela.add_entry(program.symbols[0].offset, label_sym, 26 /* ELFIO::R_RISCV_HI20 */);
+        rela.add_entry(visitor->references[0].offset, label_sym, 26 /* ELFIO::R_RISCV_HI20 */);
-        rela.add_entry(program.symbols[0].offset, label_sym, 51 /* ELFIO::R_RISCV_RELAX */);
+        rela.add_entry(visitor->references[0].offset, label_sym, 51 /* ELFIO::R_RISCV_RELAX */);
-        rela.add_entry(program.symbols[1].offset, label_sym, 27 /* ELFIO::R_RISCV_LO12_I */);
+        rela.add_entry(visitor->references[1].offset, label_sym, 27 /* ELFIO::R_RISCV_LO12_I */);
-        rela.add_entry(program.symbols[1].offset, label_sym, 51 /* ELFIO::R_RISCV_RELAX */);
+        rela.add_entry(visitor->references[1].offset, label_sym, 51 /* ELFIO::R_RISCV_RELAX */);
-        rela.add_entry(program.symbols[2].offset, printf_sym, 18 /* ELFIO::R_RISCV_CALL */);
+        rela.add_entry(visitor->references[2].offset, printf_sym, 18 /* ELFIO::R_RISCV_CALL */);
-        rela.add_entry(program.symbols[2].offset, printf_sym, 51 /* ELFIO::R_RISCV_RELAX */);
+        rela.add_entry(visitor->references[2].offset, printf_sym, 51 /* ELFIO::R_RISCV_RELAX */);
        // Create ELF object file
        writer.save(out_file);
        return 0;
    }
 }
--- a/cli/cl.cpp
+++ b/cli/cl.cpp
@ -0,0 +1,52 @@
 #include "elna/cli/cl.hpp"
 #include "elna/backend/target.hpp"
 #include <cstddef>
 #include <fstream>
 #include <sstream>
 namespace elna::cli
 {
    char *readSource(const char *source)
    {
        const std::size_t bufferSize = 255;
        std::ifstream input_stream{ source };
        std::stringstream buffer;
        buffer << input_stream.rdbuf();
        input_stream.close();
        std::string contents = buffer.str();
        char *result = reinterpret_cast<char *>(malloc(contents.size() + 1));
        std::copy(std::cbegin(contents), std::cend(contents), result);
        result[contents.size()] = '\0';
        return result;
    }
    int compile(const std::filesystem::path& in_file, const std::filesystem::path& out_file)
    {
        auto sourceText = readSource(in_file.c_str());
        if (sourceText == nullptr)
        {
            return 3;
        }
        size_t tokensCount{ 0 };
        auto lex_result = source::lex(sourceText);
        free(sourceText);
        if (lex_result.has_errors())
        {
            for (const auto& compile_error : lex_result.errors())
            {
                printf("%lu:%lu: %s\n", compile_error.line(), compile_error.column(), compile_error.what());
            }
            return 1;
        }
        auto ast = source::parser(lex_result.success()).parse();
        if (ast == nullptr)
        {
            return 2;
        }
        backend::riscv32_elf(ast.get(), out_file);
        return 0;
    }
 }
--- a/source/main.cpp
+++ b/source/main.cpp
@ -1,4 +1,4 @@
-#include "elna/cl.hpp"
+#include "elna/cli/cl.hpp"
 #include <filesystem>
 #include <iostream>
@ -43,5 +43,5 @@ int main(int argc, char **argv)
    {
        out_file = in_file.filename().replace_extension(".o");
    }
-    return elna::compile(in_file, out_file);
+    return elna::cli::compile(in_file, out_file);
 }
--- a/include/elna/backend/riscv.hpp
+++ b/include/elna/backend/riscv.hpp
@ -3,10 +3,23 @@
 #include <cstdint>
 #include <unordered_map>
 #include "elna/source/parser.hpp"
 #include "elna/result.hpp"
-namespace elna
+namespace elna::backend
 {
    enum class Target
    {
        text,
        high20,
        lower12i
    };
    struct Reference
    {
        const char* name;
        std::size_t offset;
        Target target;
    };
    enum class XRegister : std::uint8_t
    {
        zero = 0,
@ -135,8 +148,8 @@ namespace elna
        Instruction& r(XRegister rd, Funct3 funct3, XRegister rs1, XRegister rs2, Funct7 funct7 = Funct7::none);
        Instruction& u(XRegister rd, std::uint32_t imm);
-        const std::byte *cbegin();
+        const std::byte *cbegin() const;
-        const std::byte *cend();
+        const std::byte *cend() const;
    private:
        std::uint32_t instruction{ 0 };
@ -145,8 +158,7 @@ namespace elna
    class RiscVVisitor : public source::ParserVisitor
    {
    public:
-        Instruction *instructions;
+        std::vector<Instruction> instructions;
        std::size_t instructionsLength;
        bool registerInUse{ true };
        std::uint32_t variableCounter = 1;
        Reference references[3];
@ -155,10 +167,8 @@ namespace elna
        virtual void visit(source::definition *definition) override;
        virtual void visit(source::bang_statement *statement) override;
        virtual void visit(source::block *block) override;
-        virtual void visit(source::variable *variable) override;
+        virtual void visit(source::variable_expression *variable) override;
        virtual void visit(source::integer_literal *number) override;
        virtual void visit(source::binary_expression *expression) override;
    };
    Symbol writeNext(source::block *ast);
 }
--- a/include/elna/backend/target.hpp
+++ b/include/elna/backend/target.hpp
@ -0,0 +1,7 @@
 #include "elna/source/parser.hpp"
 #include <filesystem>
 namespace elna::backend
 {
    void riscv32_elf(source::block *ast, const std::filesystem::path& out_file);
 }
--- a/include/elna/cli/cl.hpp
+++ b/include/elna/cli/cl.hpp
@ -2,7 +2,7 @@
 #include <filesystem>
-namespace elna
+namespace elna::cli
 {
    char *readSource(const char *source);
    int compile(const std::filesystem::path& in_file, const std::filesystem::path& out_file);
--- a/include/elna/result.hpp
+++ b/include/elna/result.hpp
@ -1,112 +0,0 @@
 #pragma once
 #include <cstddef>
 #include <variant>
 #include <vector>
 #include <forward_list>
 namespace elna
 {
    namespace source
    {
        /**
         * Position in the source text.
         */
        struct position
        {
            /// Line.
            std::size_t line = 1;
            /// Column.
            std::size_t column = 1;
        };
        /**
         * A compilation error consists of an error message and position.
         */
        struct error
        {
        private:
            char const *message;
            source::position position;
        public:
            /**
             * \param message Error text.
             * \param position Error position in the source text.
             */
            error(char const *message, const source::position position) noexcept;
            /// Error text.
            const char *what() const noexcept;
            /// Error line in the source text.
            std::size_t line() const noexcept;
            /// Error column in the source text.
            std::size_t column() const noexcept;
        };
        template<typename T>
        struct result
        {
            using E = std::forward_list<source::error>;
            template<typename... Args>
            explicit result(Args&&... arguments)
                : payload(std::forward<Args>(arguments)...)
            {
            }
            explicit result(const char *message, const source::position position)
                : payload(E{ source::error(message, position) })
            {
            }
            bool has_errors() const noexcept
            {
                return std::holds_alternative<E>(payload);
            }
            bool is_success() const noexcept
            {
                return std::holds_alternative<T>(payload);
            }
            T& success()
            {
                return std::get<T>(payload);
            }
            E& errors()
            {
                return std::get<E>(payload);
            }
        private:
            std::variant<T, E> payload;
        };
    }
    enum class Target
    {
        text,
        high20,
        lower12i
    };
    struct Reference
    {
        const char* name;
        size_t offset;
        Target target;
    };
    struct Symbol
    {
        Symbol(const char *name);
        const char *name;
        std::vector<std::byte> text;
        Reference symbols[3];
    };
 }
--- a/include/elna/shell/history.hpp
+++ b/include/elna/shell/history.hpp
--- a/include/elna/shell/interactive.hpp
+++ b/include/elna/shell/interactive.hpp
@ -5,8 +5,8 @@
 #include <string>
 #include <optional>
-#include "elna/state.hpp"
+#include "elna/shell/state.hpp"
-#include "elna/history.hpp"
+#include "elna/shell/history.hpp"
 #define BOOST_PROCESS_USE_STD_FS
--- a/include/elna/shell/state.hpp
+++ b/include/elna/shell/state.hpp
--- a/include/elna/source/ir.hpp
+++ b/include/elna/source/ir.hpp
@ -2,7 +2,7 @@
 #include "elna/source/parser.hpp"
-namespace elna
+namespace elna::source
 {
    class TransformVisitor final : public source::ParserVisitor
    {
@ -10,7 +10,7 @@ namespace elna
        void visit(source::bang_statement *statement) override;
        void visit(source::block *block) override;
        void visit(source::integer_literal *number) override;
-        void visit(source::variable *variable) override;
+        void visit(source::variable_expression *variable) override;
        void visit(source::binary_expression *binaryExpression) override;
    };
 }
--- a/include/elna/source/lexer.hpp
+++ b/include/elna/source/lexer.hpp
@ -2,12 +2,10 @@
 #include <cstdint>
 #include <string>
 #include <vector>
 #include "elna/source/result.hpp"
-#include "elna/result.hpp"
+namespace elna::source
 namespace elna
 {
 namespace source
 {
    /**
     * Range over the source text that keeps track of the current position.
@ -113,4 +111,3 @@ namespace source
     */
    elna::source::result<std::vector<token>> lex(const std::string& buffer);
 }
 }
--- a/include/elna/source/parser.hpp
+++ b/include/elna/source/parser.hpp
@ -4,9 +4,7 @@
 #include <memory>
 #include <elna/source/lexer.hpp>
-namespace elna
+namespace elna::source
 {
 namespace source
 {
    enum class binary_operator
    {
@ -20,7 +18,7 @@ namespace source
    class bang_statement;
    class block;
    class binary_expression;
-    class variable;
+    class variable_expression;
    class integer_literal;
    struct ParserVisitor
@ -29,7 +27,7 @@ namespace source
        virtual void visit(bang_statement *) = 0;
        virtual void visit(block *) = 0;
        virtual void visit(binary_expression *) = 0;
-        virtual void visit(variable *) = 0;
+        virtual void visit(variable_expression *) = 0;
        virtual void visit(integer_literal *) = 0;
    };
@ -104,12 +102,12 @@ namespace source
        std::int32_t number() const noexcept;
    };
-    class variable : public expression
+    class variable_expression : public expression
    {
        std::string m_name;
    public:
-        variable(const std::string& name);
+        variable_expression(const std::string& name);
        virtual void accept(ParserVisitor *visitor) override;
        const std::string& name() const noexcept;
@ -150,4 +148,3 @@ namespace source
        std::vector<token>::const_iterator end;
    };
 }
 }
--- a/include/elna/source/result.hpp
+++ b/include/elna/source/result.hpp
@ -0,0 +1,86 @@
 #pragma once
 #include <cstddef>
 #include <variant>
 #include <forward_list>
 namespace elna::source
 {
    /**
     * Position in the source text.
     */
    struct position
    {
        /// Line.
        std::size_t line = 1;
        /// Column.
        std::size_t column = 1;
    };
    /**
     * A compilation error consists of an error message and position.
     */
    struct error
    {
    private:
        char const *message;
        source::position position;
    public:
        /**
         * \param message Error text.
         * \param position Error position in the source text.
         */
        error(char const *message, const source::position position) noexcept;
        /// Error text.
        const char *what() const noexcept;
        /// Error line in the source text.
        std::size_t line() const noexcept;
        /// Error column in the source text.
        std::size_t column() const noexcept;
    };
    template<typename T>
    struct result
    {
        using E = std::forward_list<source::error>;
        template<typename... Args>
        explicit result(Args&&... arguments)
            : payload(std::forward<Args>(arguments)...)
        {
        }
        explicit result(const char *message, const source::position position)
            : payload(E{ source::error(message, position) })
        {
        }
        bool has_errors() const noexcept
        {
            return std::holds_alternative<E>(payload);
        }
        bool is_success() const noexcept
        {
            return std::holds_alternative<T>(payload);
        }
        T& success()
        {
            return std::get<T>(payload);
        }
        E& errors()
        {
            return std::get<E>(payload);
        }
    private:
        std::variant<T, E> payload;
    };
 }
--- a/shell/history.cpp
+++ b/shell/history.cpp
@ -1,4 +1,4 @@
-#include "elna/history.hpp"
+#include "elna/shell/history.hpp"
 namespace elna
 {
--- a/shell/interactive.cpp
+++ b/shell/interactive.cpp
@ -1,4 +1,4 @@
-#include "elna/interactive.hpp"
+#include "elna/shell/interactive.hpp"
 #include <boost/algorithm/string/predicate.hpp>
 #include <boost/process.hpp>
--- a/shell/main.cpp
+++ b/shell/main.cpp
@ -1,6 +1,6 @@
 #include <cstdlib>
 #include <unistd.h>
-#include "elna/interactive.hpp"
+#include "elna/shell/interactive.hpp"
 int main()
 {
--- a/shell/state.cpp
+++ b/shell/state.cpp
@ -1,7 +1,7 @@
 #include <algorithm>
 #include <boost/endian.hpp>
-#include "elna/state.hpp"
+#include "elna/shell/state.hpp"
 namespace elna
 {
--- a/source/ir.cpp
+++ b/source/ir.cpp
@ -1,8 +1,8 @@
-#include "elna/ir.hpp"
+#include "elna/source/ir.hpp"
 #include <cassert>
-namespace elna
+namespace elna::source
 {
    void TransformVisitor::visit(source::definition *definition)
    {
@ -24,7 +24,7 @@ namespace elna
        assert(false);
    }
-    void TransformVisitor::visit(source::variable *variable)
+    void TransformVisitor::visit(source::variable_expression *variable)
    {
        assert(false);
    }
--- a/source/lexer.cpp
+++ b/source/lexer.cpp
@ -1,9 +1,7 @@
 #include "elna/source/lexer.hpp"
 #include <variant>
-namespace elna
+namespace elna::source
 {
 namespace source
 {
    using source_position = elna::source::position;
    using source_error = elna::source::error;
@ -287,4 +285,3 @@ namespace source
        return source_result(tokens);
    }
 }
 }
--- a/source/parser.cpp
+++ b/source/parser.cpp
@ -1,9 +1,7 @@
 #include "elna/source/parser.hpp"
 #include <stdexcept>
-namespace elna
+namespace elna::source
 {
 namespace source
 {
    /**
     * AST node.
@ -67,17 +65,17 @@ namespace source
        return m_number;
    }
-    variable::variable(const std::string& name)
+    variable_expression::variable_expression(const std::string& name)
        : m_name(name)
    {
    }
-    void variable::accept(ParserVisitor *visitor)
+    void variable_expression::accept(ParserVisitor *visitor)
    {
        visitor->visit(this);
    }
-    const std::string& variable::name() const noexcept
+    const std::string& variable_expression::name() const noexcept
    {
        return m_name;
    }
@ -154,7 +152,7 @@ namespace source
    {
        if (tokens->of() == source::token::type::identifier)
        {
-            auto result = std::make_unique<variable>(tokens->identifier());
+            auto result = std::make_unique<variable_expression>(tokens->identifier());
            ++tokens;
            return result;
        }
@ -291,4 +289,3 @@ namespace source
        return std::make_unique<block>(std::move(definitions), std::move(parsed_statement));
    }
 }
 }
--- a/source/result.cpp
+++ b/source/result.cpp
@ -1,8 +1,6 @@
-#include "elna/result.hpp"
+#include "elna/source/result.hpp"
-namespace elna
+namespace elna::source
 {
 namespace source
 {
    error::error(const char *message, const source::position position) noexcept
    {
@ -25,9 +23,3 @@ namespace source
        return this->position.column;
    }
 }
    Symbol::Symbol(const char *name)
    {
        this->name = name;
    }
 }
--- a/tests/tester.cpp
+++ b/tests/tester.cpp