/* ** Tree types */ #define TTfree 0x0 #define TTconstant 0x01 #define TTsymbol 0x02 #define TTunary 0x04 #define TTleaf 0x08 #define TTbinary 0x10 #define TThybrid 0x20 #define TTBasicShape (TTfree|TTconstant|TTsymbol|TTunary|TTbinary|TThybrid) #define TTzero 0x40 typedef USHORT p2type_t; typedef p2type_t *pp2type_t; typedef struct tree_200 { ptree_t tr_left; /* left child */ ptree_t tr_right; /* right child */ } tree_200_st; typedef struct tree_190 { ptree_t tr_uchild; /* unary child */ } tree_190_st; typedef struct tree_180 { psym_t tr_symbol; /* symbol */ } tree_180_st; typedef struct tree_170 { value_t tr_value; /* value of the tree */ } tree_170_st; typedef union tree_100 { tree_200_st t200; tree_190_st t190; tree_180_st t180; tree_170_st t170; } tree_100_st; struct s_tree { token_t tr_token; /* tree's token */ shape_t tr_shape; /* tree shape */ ptype_t tr_p1type; /* p1's view of the type */ p2type_t tr_p2type; /* p1's view of the type p2 should have */ tree_100_st t100; }; #define TR_SHAPE(P) ((P)->tr_shape) #define BASIC_SHAPE(S) ((S) & TTBasicShape) #define TR_TOKEN(P) ((P)->tr_token) #define TR_P1TYPE(P) ((P)->tr_p1type) /* resultant type */ #define TR_P2TYPE(P) ((P)->tr_p2type) /* resultant type */ #define TR_ISZERO(P) (TR_SHAPE(P) & TTzero) #define TR_LEFT(P) ((P)->t100.t200.tr_left) /* left child */ #define TR_RIGHT(P) ((P)->t100.t200.tr_right) /* right child */ #define TR_UCHILD(P) ((P)->t100.t190.tr_uchild) /* unary's child */ #define TR_SVALUE(P) ((P)->t100.t180.tr_symbol) /* ptr to the symbol */ #define TR_VALUE(P) ((P)->t100.t170.tr_value) /* value of tree */ #define TR_RCON(P) (TR_VALUE(P).v_rcon) /* real constant */ #define TR_DVALUE(P) (TR_RCON(P)->rcon_real) /* double value */ #define TR_LVALUE(P) (TR_VALUE(P).v_long) /* long value */ #define TR_STRING(P) (TR_VALUE(P).v_string) /* string value */ #define TR_CVALUE(P) (TR_STRING(P).str_ptr) /* ptr to string */ #define TR_CLEN(P) (TR_STRING(P).str_len) /* length of string */ #define TR_BTYPE(P) (TY_BTYPE(TR_P1TYPE(P)))/* base type */ #define TR_ESU(P) (TY_ESU(TR_P1TYPE(P))) /* parent enum/struct/union */ #define TR_INDIR(P) (TY_INDIR(TR_P1TYPE(P))) #define TR_INEXT(P) (INDIR_INEXT(TR_INDIR(P))) #define TR_ITYPE(P) (INDIR_ITYPE(TR_INDIR(P))) #define TR_ISUB(P) (INDIR_ISUB(TR_INDIR(P))) #define TR_IFORMALS(P) (INDIR_IFORMALS(TR_INDIR(P))) /* ** for cases */ struct s_case { case_t *c_next; /* next in list */ long c_expr; /* value of constant expression */ p1key_t c_label; /* label to which to jump if expr */ }; #define NEXT_CASE(p) ((p)->c_next) #define CASE_EXPR(p) ((p)->c_expr) #define CASE_LABEL(p) ((p)->c_label) /* ** loop inversion structs ** for( init; test; incr ) { ... } ** we handle : sym | const relop sym | const; sym op sym | const */ typedef struct s_loopia loopia_t, *loopiap_t; typedef struct s_liarray liarray_t, *liarrayp_t; struct s_loopia { token_t lia_token; union { psym_t lia_sym; long lia_value; liarrayp_t lia_array; } lia_union; }; #define LIA_TOKEN(p) ((p)->lia_token) #define LIA_SYM(p) ((p)->lia_union.lia_sym) #define LIA_VALUE(p) ((p)->lia_union.lia_value) #define LIA_ARRAY(p) ((p)->lia_union.lia_array) typedef struct s_liarray { loopia_t liar_left; loopia_t liar_right; } liarray; #define LIAR_LEFT(p) (&((p)->liar_left)) #define LIAR_RIGHT(p) (&((p)->liar_right)) typedef struct s_loopi { int li_relop; int li_incop; loopia_t li_w; loopia_t li_x; loopia_t li_y; loopia_t li_z; } loopi_t, *loopip_t; #define LOOP_RELOP(p) ((p)->li_relop) #define LOOP_INCOP(p) ((p)->li_incop) #define LOOP_W(p) (&((p)->li_w)) #define LOOP_X(p) (&((p)->li_x)) #define LOOP_Y(p) (&((p)->li_y)) #define LOOP_Z(p) (&((p)->li_z)) #define LOOP_W_TOKEN(p) LIA_TOKEN(LOOP_W(p)) #define LOOP_X_TOKEN(p) LIA_TOKEN(LOOP_X(p)) #define LOOP_Y_TOKEN(p) LIA_TOKEN(LOOP_Y(p)) #define LOOP_Z_TOKEN(p) LIA_TOKEN(LOOP_Z(p)) #define LOOP_W_SYM(p) LIA_SYM(LOOP_W(p)) #define LOOP_X_SYM(p) LIA_SYM(LOOP_X(p)) #define LOOP_Y_SYM(p) LIA_SYM(LOOP_Y(p)) #define LOOP_Z_SYM(p) LIA_SYM(LOOP_Z(p)) #define LOOP_W_VALUE(p) LIA_VALUE(LOOP_W(p)) #define LOOP_X_VALUE(p) LIA_VALUE(LOOP_X(p)) #define LOOP_Y_VALUE(p) LIA_VALUE(LOOP_Y(p)) #define LOOP_Z_VALUE(p) LIA_VALUE(LOOP_Z(p)) /* ** stack structure for saving items which must be stacked at various places */ struct s_stack { stack_t *stk_next; union { ptree_t sv_tree; psym_t sv_sym; int sv_int; loopip_t sv_loopi; } stk_value; }; #define TEST_LAB (Test->stk_value.sv_tree) #define START_LAB (Start->stk_value.sv_tree) #define CONTINUE_LAB (Continue->stk_value.sv_tree) #define BREAK_LAB (Break->stk_value.sv_tree) #define CA_LAB (Case->stk_value.sv_tree) #define DEFAULT_LAB (Default->stk_value.sv_tree) #define LOOPI(p) ((p)->stk_value.sv_loopi)