/** * UPEM / Compilation / Projet * Pacien TRAN-GIRARD, Adam NAILI */ #include "generator.h" void yyerror(char *); // ----- GLOBAL FUNCTIONS ----- void gen_prologue() { fprintf(output, "extern printf\nextern scanf\n"); fprintf(output, "section .data\n"); } void gen_prologue_continue(int *bss_done) { if (*bss_done != 0) return; fprintf(output, "format_int db \"%%d\",10,0\n"); fprintf(output, "format_char db \"%%c\",10,0\n"); fprintf(output, "format_int_in: db \"%%d\", 0\n"); fprintf(output, "format_char_in: db \"%%c\", 0\n\n"); fprintf(output, "section .bss\n"); fprintf(output, "globals: resq %d\n", nb_globals); fprintf(output, "section .text\n\nglobal _start\n"); fprintf(output, "\nprinte: ;print needs an argument in rax\n"); fprintf(output, "push rbp\n"); fprintf(output, "mov rbp, rsp\n"); fprintf(output, "push rsi\n"); fprintf(output, "push rdi\n"); fprintf(output, "mov rsi, rax\n"); fprintf(output, "mov rdi, format_int\n"); fprintf(output, "mov rax, 0\n"); fprintf(output, "call printf WRT ..plt\n"); fprintf(output, "pop rdi\n"); fprintf(output, "pop rsi\n"); fprintf(output, "pop rbp\n"); fprintf(output, "ret\n"); fprintf(output, "\nprintc: ;print needs an argument in rax\n"); fprintf(output, "push rbp\n"); fprintf(output, "mov rbp, rsp\n"); fprintf(output, "push rsi\n"); fprintf(output, "push rdi\n"); fprintf(output, "mov rsi, rax\n"); fprintf(output, "mov rdi, format_char\n"); fprintf(output, "mov rax, 0\n"); fprintf(output, "call printf WRT ..plt\n"); fprintf(output, "pop rdi\n"); fprintf(output, "pop rsi\n"); fprintf(output, "pop rbp\n"); fprintf(output, "ret\n"); fprintf(output, "\nreade: ;read needs an adress in rax\n"); fprintf(output, "push rbp\n"); fprintf(output, "mov rbp, rsp\n"); fprintf(output, "push rsi\n"); fprintf(output, "push rdi\n"); fprintf(output, "mov rsi, rax\n"); fprintf(output, "mov rdi, format_int_in\n"); fprintf(output, "mov rax, 0\n"); fprintf(output, "call scanf\n"); fprintf(output, "pop rdi\n"); fprintf(output, "pop rsi\n"); fprintf(output, "pop rbp\n"); fprintf(output, "ret\n"); fprintf(output, "\nreadc: ;read needs an adress in rax\n"); fprintf(output, "push rbp\n"); fprintf(output, "mov rbp, rsp\n"); fprintf(output, "push rsi\n"); fprintf(output, "push rdi\n"); fprintf(output, "mov rsi, rax\n"); fprintf(output, "mov rdi, format_char_in\n"); fprintf(output, "mov rax, 0\n"); fprintf(output, "call scanf\n"); fprintf(output, "pop rdi\n"); fprintf(output, "pop rsi\n"); fprintf(output, "pop rbp\n"); fprintf(output, "ret\n"); *bss_done = 1; } void gen_epilogue() { fprintf(output, "\n_start:\n"); fprintf(output, "push rbp\nmov rbp, rsp\n\n"); fprintf(output, "call main\n"); fprintf(output, "\nmov rax,60 \n"); fprintf(output, "mov rdi,0 \n"); fprintf(output, "syscall \n\n"); fprintf(output, ";global table\n"); glo_display_table(); fprintf(output, ";local table\n"); loc_display_table(); fprintf(output, ";function table\n"); fun_display_table(); // require a main function fun_lookup("main", 0); } void gen_const(const char name[], int value, Scope scope) { switch (scope) { case LOCAL: loc_addConst(name); fprintf(output, "push %d\n", value); return; case GLOBAL: glo_addConst(name); fprintf(output, "%s dq %d\n", name, value); return; } } Type gen_function_declaration(const char name[], int return_type) { fprintf(output, "\n%s:\npush rbp\nmov rbp,rsp\n", name); return return_type; } void gen_function_end_declaration(const char name[], int return_type, int nb_param) { fun_add(name, return_type, nb_param); fprintf(output, "mov rax,-1\nmov rsp, rbp\npop rbp\nret\n"); } void gen_function_return(Type expect, Type actual) { if (actual != expect) { yyerror("Return type mismatch"); return; } if (actual != VOID_T) fprintf(output, "pop rax\n"); fprintf(output, "mov rsp, rbp\npop rbp\nret\n"); } Type gen_function_call(const char name[], int nb_param) { Type return_type = fun_lookup(name, nb_param); fprintf(output, "call %s\n", name); if (return_type != VOID_T) fprintf(output, "push rax\n"); return return_type; } void gen_declaration(const char name[], int type, Scope scope) { switch (scope) { case GLOBAL: glo_addVar(name, type); nb_globals++; break; case LOCAL: loc_addVar(name, type); fprintf(output, "push 0\n"); break; } } void gen_tab_declaration(const char name[], Scope scope, int size) { switch (scope) { case GLOBAL: glo_addVar(name, TAB); nb_globals = nb_globals + size; break; case LOCAL: loc_addVar(name, TAB); for (int i = 0; i < size; ++i) { fprintf(output, "push 0\n"); } break; } } // Verifies that the variable exists void gen_check(const char name[], Scope scope) { switch (scope) { case GLOBAL: glo_lookup(name); break; case LOCAL: loc_lookup(name); break; } } // ----- READ AND PRINT FUNCTIONS ----- void gen_reade(const char name[], Scope scope) { if (is_read_only(name, scope)) { yyerror("Symbol is read only"); return; } if (loc_lookup(name) != INT) { yyerror("Need to be a INT in the reade() function"); return; } int l_addr = loc_get_addr(name); int g_addr = glo_get_addr(name); if (l_addr != -1) { fprintf(output, "mov rax,rbp\nsub rax,%d\ncall reade\n", loc_get_addr(name)); return; } fprintf(output, "mov rax,globals\nadd rax,%d\ncall reade\n", g_addr); } void gen_readc(const char name[], Scope scope) { if (is_read_only(name, scope)) { yyerror("Symbol is read only"); return; } if (loc_lookup(name) != CHAR) { yyerror("Need to be a CHAR in the readc() function"); return; } int l_addr = loc_get_addr(name); int g_addr = glo_get_addr(name); if (l_addr != -1) { fprintf(output, "mov rax,rbp\nsub rax,%d\ncall readc\n", loc_get_addr(name)); return; } fprintf(output, "mov rax,globals\nadd rax,%d\ncall readc\n", g_addr); } void gen_print(int type) { // check if the name exists in both tables fprintf(output, "pop rax\n"); switch (type) { case INT: fprintf(output, "call printe\n"); break; case CHAR: fprintf(output, "call printc\n"); break; case TAB: fprintf(output, "call printe\n"); break; default: yyerror("Error print, supposed to have type CHAR or INT or TAB"); } } // ----- CONDITIONAL BRANCHING ------ void gen_if_label(int idx) { fprintf(output, ".end_if%d:\n", idx); fprintf(output, ";ENDIF\n\n"); } void gen_if_start(int idx) { fprintf(output, "\n;BEGINIF\n"); fprintf(output, "pop rax\n"); fprintf(output, "cmp rax,0\n"); fprintf(output, "jz .end_if%d\n", idx); } void gen_if_end(int idx) { fprintf(output, "jmp .end_ifelse%d\n", idx); fprintf(output, ".end_if%d:\n", idx); } void gen_ifelse_end(int idx) { fprintf(output, ".end_ifelse%d:\n", idx); fprintf(output, ";ENDIF\n\n"); } // ----- OPERATORS ----- static int gen_assign_simple(const char ident[], Scope scope) { int l_addr = loc_get_addr(ident); int g_addr = glo_get_addr(ident); if (is_read_only(ident, scope)) { yyerror("Symbol is read only"); return loc_lookup(ident); } switch (scope) { case GLOBAL: fprintf(output, "pop QWORD [globals + %d] ;%s\n", g_addr, ident); return glo_lookup(ident); case LOCAL: if (l_addr != -1) { fprintf(output, "pop QWORD [rbp - %d] ;%s\n", l_addr, ident); return loc_lookup(ident); } else { fprintf(output, "pop QWORD [globals + %d] ;%s\n", g_addr, ident); return glo_lookup(ident); } default: exit(1); } } static int gen_assign_tab(const char ident[], Scope scope) { int l_addr = loc_get_addr(ident); int g_addr = glo_get_addr(ident); if (is_read_only(ident, scope)) { yyerror("Symbol is read only"); return loc_lookup(ident); } switch (scope) { case GLOBAL: fprintf(output, "pop r8 ;EXP\npop rcx ;offset\npush r8\nimul rcx,8\nmov " "rax,globals\n add rax,rcx\npop QWORD [rax + %d] ;%s\n", g_addr, ident); return glo_lookup(ident); case LOCAL: if (l_addr != -1) { fprintf(output, "pop r8 ;EXP\npop rcx ;offset\npush r8\nimul rcx,8\nmov " "rax,rbp\nsub rax,rcx\npop QWORD [rax - %d] ;%s\n", l_addr, ident); return loc_lookup(ident); } else { fprintf(output, "pop r8 ;EXP\npop rcx ;offset\npush r8\nimul rcx,8\nmov " "rax,globals\n add rax,rcx\npop QWORD [rax + %d] ;%s\n", g_addr, ident); return glo_lookup(ident); } default: exit(1); } } int gen_assign(const char ident[], Scope scope) { switch (loc_lookup(ident)) { case TAB: return gen_assign_tab(ident, scope); default: return gen_assign_simple(ident, scope); } } void gen_or(int left, int right, int idx) { check_expected_types(left, INT, TAB); check_expected_types(right, INT, TAB); fprintf(output, ";a OR c\n"); fprintf(output, "pop rax\n"); fprintf(output, "cmp rax,1\n"); fprintf(output, "je .true%d\n", idx); fprintf(output, "pop rcx\n"); fprintf(output, "cmp rcx,1\n"); fprintf(output, "jz .true%d\n", idx); fprintf(output, "push 0\n"); fprintf(output, "jmp .false%d\n", idx); fprintf(output, ".true%d:\n", idx); fprintf(output, "push 1\n"); fprintf(output, ".false%d:\n", idx); } void gen_and(int left, int right, int idx) { check_expected_types(left, INT, TAB); check_expected_types(right, INT, TAB); fprintf(output, ";a AND c\n"); fprintf(output, "pop rax\n"); fprintf(output, "cmp rax,0\n"); fprintf(output, "jz .false%d\n", idx); fprintf(output, "pop rcx\n"); fprintf(output, "cmp rcx,0\n"); fprintf(output, "jz .false%d\n", idx); fprintf(output, "push 1\n"); fprintf(output, "jmp .true%d\n", idx); fprintf(output, ".false%d:\n", idx); fprintf(output, "push 0\n"); fprintf(output, ".true%d:\n", idx); } void gen_eq(const char op[], int left, int right, int idx) { check_expected_types(left, INT, TAB); check_expected_types(right, INT, TAB); fprintf(output, ";a EQ c\npop rax\npop rcx\ncmp rax,rcx\n"); if (!strcmp(op, "==")) fprintf(output, "je .true%d\n", idx); else if (!strcmp(op, "!=")) fprintf(output, "jne .true%d\n", idx); else exit(1); // TODO: error on unexpected op fprintf(output, "push 0\njmp .false%d\n.true%d:\npush 1\n.false%d:\n", idx, idx, idx); } void gen_order(const char op[], int left, int right, int idx) { check_expected_types(left, INT, TAB); check_expected_types(right, INT, TAB); fprintf(output, ";a ORDER c\npop rcx\npop rax\ncmp rax,rcx\n"); if (!strcmp(op, "<")) fprintf(output, "jl .true%d\n", idx); else if (!strcmp(op, "<=")) fprintf(output, "jle .true%d\n", idx); else if (!strcmp(op, ">")) fprintf(output, "jg .true%d\n", idx); else if (!strcmp(op, "<=")) fprintf(output, "jge .true%d\n", idx); else exit(1); // TODO: error on unexpected op fprintf(output, "push 0\njmp .false%d\n.true%d:\npush 1\n.false%d:\n", idx, idx, idx); } void gen_addsub(char op, int left, int right) { check_expected_types(left, INT, TAB); check_expected_types(right, INT, TAB); switch (op) { case '+': fprintf(output, ";E + T\npop rcx\npop rax\nadd rax,rcx\npush rax\n"); break; case '-': fprintf(output, ";E - T\npop rcx\npop rax\nsub rax,rcx\npush rax\n"); break; default: exit(1); } } void gen_divstar(char op, int left, int right) { check_expected_types(left, INT, TAB); check_expected_types(right, INT, TAB); switch (op) { case '*': fprintf(output, ";E * T\npop rax\npop rcx\nimul rax,rcx\npush rax\n"); break; case '/': case '%': fprintf(output, ";E / T\npop rax\npop rcx\nxor rdx,rdx\nidiv rcx\n"); fprintf(output, "push %s\n", op == '/' ? "rax" : "rdx"); break; default: exit(1); } } int gen_signed_expr(char op, int type) { check_expected_types(type, INT, TAB); switch (op) { case '+': fprintf(output, ";+F\n"); break; case '-': fprintf(output, ";-F\npop rdx\nxor rax,rax\nsub rax,rdx\npush rax\n"); break; default: exit(1); } return type; } int gen_negate_expr(int type) { check_expected_types(type, INT, TAB); fprintf(output, ";!F\npop rax\nxor rax,1\npush rax\n"); return type; } static int gen_value_simple(const char ident[], Scope scope) { int l_addr = loc_get_addr(ident); switch (scope) { case LOCAL: if (l_addr != -1) { fprintf(output, "push QWORD [rbp - %d] ;%s\n", l_addr, ident); return loc_lookup(ident); } case GLOBAL: if (is_read_only(ident, scope)) fprintf(output, "push QWORD [%s]\n", ident); else fprintf(output, "push QWORD [globals + %d] ;%s\n", glo_get_addr(ident), ident); return glo_lookup(ident); default: exit(1); } } static int gen_value_tab(const char ident[], Scope scope) { int l_addr = loc_get_addr(ident); int g_addr = glo_get_addr(ident); switch (scope) { case GLOBAL: fprintf(output, "pop rcx ;offset\nimul rcx,8\nmov rax,globals\n add " "rax,rcx\npush QWORD [rax + %d] ;%s\n", g_addr, ident); return glo_lookup(ident); case LOCAL: if (l_addr != -1) { fprintf(output, "pop rcx ;offset\nimul rcx,8\nmov rax,rbp\nsub " "rax,rcx\npush QWORD [rax - %d] ;%s\n", l_addr, ident); return loc_lookup(ident); } else { fprintf(output, "pop rcx ;offset\nimul rcx,8\nmov rax,globals\n add " "rax,rcx\npush QWORD [rax + %d] ;%s\n", g_addr, ident); return glo_lookup(ident); } default: exit(1); } } int gen_value(const char ident[], Scope scope) { switch (loc_lookup(ident)) { case TAB: return gen_value_tab(ident, scope); default: return gen_value_simple(ident, scope); } } int gen_num(int value, Scope scope) { fprintf(output, "push %d\n", value); return INT; } int gen_char(int value, Scope scope) { fprintf(output, "push %d\n", value); return CHAR; }