Some changes in the way, types and type strings are handled.

[cc65] / src / cc65 / locals.c

/*****************************************************************************/
/*                                                                           */
/*                                 locals.c                                  */
/*                                                                           */
/*              Local variable handling for the cc65 C compiler              */
/*                                                                           */
/*                                                                           */
/*                                                                           */
/* (C) 2000     Ullrich von Bassewitz                                        */
/*              Wacholderweg 14                                              */
/*              D-70597 Stuttgart                                            */
/* EMail:       uz@musoftware.de                                             */
/*                                                                           */
/*                                                                           */
/* This software is provided 'as-is', without any expressed or implied       */
/* warranty.  In no event will the authors be held liable for any damages    */
/* arising from the use of this software.                                    */
/*                                                                           */
/* Permission is granted to anyone to use this software for any purpose,     */
/* including commercial applications, and to alter it and redistribute it    */
/* freely, subject to the following restrictions:                            */
/*                                                                           */
/* 1. The origin of this software must not be misrepresented; you must not   */
/*    claim that you wrote the original software. If you use this software   */
/*    in a product, an acknowledgment in the product documentation would be  */
/*    appreciated but is not required.                                       */
/* 2. Altered source versions must be plainly marked as such, and must not   */
/*    be misrepresented as being the original software.                      */
/* 3. This notice may not be removed or altered from any source              */
/*    distribution.                                                          */
/*                                                                           */
/*****************************************************************************/



#include "../common/xmalloc.h"

#include "anonname.h"
#include "asmlabel.h"
#include "codegen.h"
#include "declare.h"
#include "error.h"
#include "expr.h"
#include "function.h"
#include "global.h"
#include "symtab.h"
#include "locals.h"



/*****************************************************************************/
/*                                   Data                                    */
/*****************************************************************************/



/* Register variable management */
unsigned MaxRegSpace            = 6;    /* Maximum space available */
static unsigned RegOffs         = 0;    /* Offset into register space */
static const SymEntry** RegSyms = 0;    /* The register variables */
static unsigned RegSymCount     = 0;    /* Number of register variables */



/*****************************************************************************/
/*                                   Code                                    */
/*****************************************************************************/



void InitRegVars (void)
/* Initialize register variable control data */
{
    /* If the register space is zero, bail out */
    if (MaxRegSpace == 0) {
        return;
    }

    /* The maximum number of register variables is equal to the register
     * variable space available. So allocate one pointer per byte. This
     * will usually waste some space but we don't need to dynamically
     * grow the array.
     */
    RegSyms = xmalloc (MaxRegSpace * sizeof (RegSyms[0]));
    RegOffs = MaxRegSpace;
}



void DoneRegVars (void)
/* Free the register variables */
{
    xfree (RegSyms);
    RegSyms = 0;
    RegOffs = MaxRegSpace;
    RegSymCount = 0;
}



static int AllocRegVar (const SymEntry* Sym, const type* tarray)
/* Allocate a register variable with the given amount of storage. If the
 * allocation was successful, return the offset of the register variable in
 * the register bank (zero page storage). If there is no register space left,
 * return -1.
 */
{
    /* Maybe register variables are disabled... */
    if (EnableRegVars) {

        /* Get the size of the variable */
        unsigned Size = SizeOf (tarray);

        /* Do we have space left? */
        if (RegOffs >= Size) {

            /* Space left. We allocate the variables from high to low addresses,
             * so the adressing is compatible with the saved values on stack.
             * This allows shorter code when saving/restoring the variables.
             */
            RegOffs -= Size;
            RegSyms [RegSymCount++] = Sym;
            return RegOffs;
        }
    }

    /* No space left or no allocation */
    return -1;
}



static void ParseOneDecl (const DeclSpec* Spec)
/* Parse one variable declaration */
{
    int         Size;           /* Size of an auto variable */
    int         SC;             /* Storage class for symbol */
    int         SymData = 0;    /* Symbol data (offset, label name, ...) */
    unsigned    flags = 0;      /* Code generator flags */
    Declaration Decl;           /* Declaration data structure */

    /* Remember the storage class for the new symbol */
    SC = Spec->StorageClass;

    /* Read the declaration */
    ParseDecl (Spec, &Decl, DM_NEED_IDENT);

    /* Set the correct storage class for functions */
    if (IsTypeFunc (Decl.Type)) {
        /* Function prototypes are always external */
        if ((SC & SC_EXTERN) == 0) {
            Warning (WARN_FUNC_MUST_BE_EXTERN);
        }
        SC |= SC_FUNC | SC_EXTERN;

    }

    /* If we don't have a name, this was flagged as an error earlier.
     * To avoid problems later, use an anonymous name here.
     */
    if (Decl.Ident[0] == '\0') {
        AnonName (Decl.Ident, "param");
    }

    /* Handle anything that needs storage (no functions, no typdefs) */
    if ((SC & SC_FUNC) != SC_FUNC && (SC & SC_TYPEDEF) != SC_TYPEDEF) {

        /* Get the size of the variable */
        Size = SizeOf (Decl.Type);

        if (SC & (SC_AUTO | SC_REGISTER)) {

            /* Auto variable */
            if (StaticLocals == 0) {

                /* Change SC in case it was register */
                SC = (SC & ~SC_REGISTER) | SC_AUTO;
                if (curtok == TOK_ASSIGN) {

                    struct expent lval;

                    /* Allocate previously reserved local space */
                    AllocLocalSpace (CurrentFunc);

                    /* Switch to the code segment. */
                    g_usecode ();

                    /* Skip the '=' */
                    NextToken ();

                    /* Setup the type flags for the assignment */
                    flags = Size == 1? CF_FORCECHAR : CF_NONE;

                    /* Get the expression into the primary */
                    if (evalexpr (flags, hie1, &lval) == 0) {
                        /* Constant expression. Adjust the types */
                        assignadjust (Decl.Type, &lval);
                        flags |= CF_CONST;
                    } else {
                        /* Expression is not constant and in the primary */
                        assignadjust (Decl.Type, &lval);
                    }

                    /* Push the value */
                    g_push (flags | TypeOf (Decl.Type), lval.e_const);

                    /* Mark the variable as referenced */
                    SC |= SC_REF;

                    /* Variable is located at the current SP */
                    SymData = oursp;

                } else {
                    /* Non-initialized local variable. Just keep track of
                     * the space needed.
                     */
                    SymData = ReserveLocalSpace (CurrentFunc, Size);
                }

            } else {

                /* Static local variables. */
                SC = (SC & ~(SC_REGISTER | SC_AUTO)) | SC_STATIC;

                /* Put them into the BSS */
                g_usebss ();

                /* Define the variable label */
                SymData = GetLabel ();
                g_defloclabel (SymData);

                /* Reserve space for the data */
                g_res (Size);

                /* Allow assignments */
                if (curtok == TOK_ASSIGN) {

                    struct expent lval;

                    /* Switch to the code segment. */
                    g_usecode ();

                    /* Skip the '=' */
                    NextToken ();

                    /* Get the expression into the primary */
                    expression1 (&lval);

                    /* Make type adjustments if needed */
                    assignadjust (Decl.Type, &lval);

                    /* Setup the type flags for the assignment */
                    flags = TypeOf (Decl.Type);
                    if (Size == 1) {
                        flags |= CF_FORCECHAR;
                    }

                    /* Store the value into the variable */
                    g_putstatic (flags, SymData, 0);

                    /* Mark the variable as referenced */
                    SC |= SC_REF;
                }
            }

        } else if ((SC & SC_STATIC) == SC_STATIC) {

            /* Static data */
            if (curtok == TOK_ASSIGN) {

                /* Initialization ahead, switch to data segment */
                g_usedata ();

                /* Define the variable label */
                SymData = GetLabel ();
                g_defloclabel (SymData);

                /* Skip the '=' */
                NextToken ();

                /* Allow initialization of static vars */
                ParseInit (Decl.Type);

                /* Mark the variable as referenced */
                SC |= SC_REF;

            } else {

                /* Uninitialized data, use BSS segment */
                g_usebss ();

                /* Define the variable label */
                SymData = GetLabel ();
                g_defloclabel (SymData);

                /* Reserve space for the data */
                g_res (Size);

            }
        }

    }

    /* If the symbol is not marked as external, it will be defined */
    if ((SC & SC_EXTERN) == 0) {
        SC |= SC_DEF;
    }

    /* Add the symbol to the symbol table */
    AddLocalSym (Decl.Ident, Decl.Type, SC, SymData);
}



void DeclareLocals (void)
/* Declare local variables and types. */
{
    /* Loop until we don't find any more variables */
    while (1) {

        /* Check variable declarations. We need to distinguish between a
         * default int type and the end of variable declarations. So we
         * will do the following: If there is no explicit storage class
         * specifier *and* no explicit type given, it is assume that we
         * have reached the end of declarations.
         */
        DeclSpec Spec;
        ParseDeclSpec (&Spec, SC_AUTO, T_INT);
        if ((Spec.Flags & DS_DEF_STORAGE) != 0 && (Spec.Flags & DS_DEF_TYPE) != 0) {
            break;
        }

        /* Accept type only declarations */
        if (curtok == TOK_SEMI) {
            /* Type declaration only */
            CheckEmptyDecl (&Spec);
            NextToken ();
            continue;
        }

        /* Parse a comma separated variable list */
        while (1) {

            /* Parse one declaration */
            ParseOneDecl (&Spec);

            /* Check if there is more */
            if (curtok == TOK_COMMA) {
                /* More to come */
                NextToken ();
            } else {
                /* Done */
                break;
            }
        }

        /* A semicolon must follow */
        ConsumeSemi ();
    }

    /* Be sure to allocate any reserved space for locals */
    AllocLocalSpace (CurrentFunc);

    /* In case we switched away from code segment, switch back now */
    g_usecode ();
}



void RestoreRegVars (int HaveResult)
/* Restore the register variables for the local function if there are any.
 * The parameter tells us if there is a return value in ax, in that case,
 * the accumulator must be saved across the restore.
 */
{
    unsigned I, J;
    int Bytes, Offs;

    /* If we don't have register variables in this function, bail out early */
    if (RegSymCount == 0) {
        return;
    }

    /* Save the accumulator if needed */
    if (!HasVoidReturn (CurrentFunc) && HaveResult) {
        g_save (CF_CHAR | CF_FORCECHAR);
    }

    /* Walk through all variables. If there are several variables in a row
     * (that is, with increasing stack offset), restore them in one chunk.
     */
    I = 0;
    while (I < RegSymCount) {

        /* Check for more than one variable */
        const SymEntry* Sym = RegSyms[I];
        Offs  = Sym->V.Offs;
        Bytes = SizeOf (Sym->Type);
        J = I+1;

        while (J < RegSymCount) {

            /* Get the next symbol */
            const SymEntry* NextSym = RegSyms [J];

            /* Get the size */
            int Size = SizeOf (NextSym->Type);

            /* Adjacent variable? */
            if (NextSym->V.Offs + Size != Offs) {
                /* No */
                break;
            }

            /* Adjacent variable */
            Bytes += Size;
            Offs  -= Size;
            Sym   = NextSym;
            ++J;
        }

        /* Restore the memory range */
        g_restore_regvars (Offs, Sym->V.Offs, Bytes);

        /* Next round */
        I = J;
    }

    /* Restore the accumulator if needed */
    if (!HasVoidReturn (CurrentFunc) && HaveResult) {
        g_restore (CF_CHAR | CF_FORCECHAR);
    }
}