MWCC/compiler_and_linker/unsorted/CMachine.c

#include "compiler/CMachine.h"
#include "compiler/CClass.h"
#include "compiler/CError.h"
#include "compiler/CInt64.h"
#include "compiler/CParser.h"
#include "compiler/CPrep.h"
#include "compiler/CPrepTokenizer.h"
#include "compiler/CompilerTools.h"
#include "compiler/ScanFloat.h"
#include "compiler/objects.h"
#include "compiler/types.h"

TypeIntegral stbool = {TYPEINT, 1, IT_BOOL};
TypeIntegral stchar = {TYPEINT, 1, IT_CHAR};
TypeIntegral stsignedchar = {TYPEINT, 1, IT_SCHAR};
TypeIntegral stunsignedchar = {TYPEINT, 1, IT_UCHAR};
TypeIntegral stwchar = {TYPEINT, 4, IT_WCHAR_T};
TypeIntegral stsignedshort = {TYPEINT, 2, IT_SHORT};
TypeIntegral stunsignedshort = {TYPEINT, 2, IT_USHORT};
TypeIntegral stsignedint = {TYPEINT, 4, IT_INT};
TypeIntegral stunsignedint = {TYPEINT, 4, IT_UINT};
TypeIntegral stsignedlong = {TYPEINT, 4, IT_LONG};
TypeIntegral stunsignedlong = {TYPEINT, 4, IT_ULONG};
TypeIntegral stsignedlonglong = {TYPEINT, 8, IT_LONGLONG};
TypeIntegral stunsignedlonglong = {TYPEINT, 8, IT_ULONGLONG};
TypeIntegral stfloat = {TYPEFLOAT, 4, IT_FLOAT};
TypeIntegral stshortdouble = {TYPEINT, 8, IT_SHORTDOUBLE};
TypeIntegral stdouble = {TYPEINT, 8, IT_DOUBLE};
TypeIntegral stlongdouble = {TYPEINT, 8, IT_LONGDOUBLE};

static StructMember stVUC_unsignedchar15 = {NULL, (Type *) &stunsignedchar, NULL, 15, 0};
static StructMember stVUC_unsignedchar14 = {&stVUC_unsignedchar15, (Type *) &stunsignedchar, NULL, 14, 0};
static StructMember stVUC_unsignedchar13 = {&stVUC_unsignedchar14, (Type *) &stunsignedchar, NULL, 13, 0};
static StructMember stVUC_unsignedchar12 = {&stVUC_unsignedchar13, (Type *) &stunsignedchar, NULL, 12, 0};
static StructMember stVUC_unsignedchar11 = {&stVUC_unsignedchar12, (Type *) &stunsignedchar, NULL, 11, 0};
static StructMember stVUC_unsignedchar10 = {&stVUC_unsignedchar11, (Type *) &stunsignedchar, NULL, 10, 0};
static StructMember stVUC_unsignedchar9 = {&stVUC_unsignedchar10, (Type *) &stunsignedchar, NULL, 9, 0};
static StructMember stVUC_unsignedchar8 = {&stVUC_unsignedchar9, (Type *) &stunsignedchar, NULL, 8, 0};
static StructMember stVUC_unsignedchar7 = {&stVUC_unsignedchar7, (Type *) &stunsignedchar, NULL, 7, 0};
static StructMember stVUC_unsignedchar6 = {&stVUC_unsignedchar7, (Type *) &stunsignedchar, NULL, 6, 0};
static StructMember stVUC_unsignedchar5 = {&stVUC_unsignedchar6, (Type *) &stunsignedchar, NULL, 5, 0};
static StructMember stVUC_unsignedchar4 = {&stVUC_unsignedchar5, (Type *) &stunsignedchar, NULL, 4, 0};
static StructMember stVUC_unsignedchar3 = {&stVUC_unsignedchar4, (Type *) &stunsignedchar, NULL, 3, 0};
static StructMember stVUC_unsignedchar2 = {&stVUC_unsignedchar3, (Type *) &stunsignedchar, NULL, 2, 0};
static StructMember stVUC_unsignedchar1 = {&stVUC_unsignedchar2, (Type *) &stunsignedchar, NULL, 1, 0};
static StructMember stVUC_unsignedchar0 = {&stVUC_unsignedchar1, (Type *) &stunsignedchar, NULL, 0, 0};

static StructMember stVSC_signedchar15 = {NULL, (Type *) &stsignedchar, NULL, 15, 0};
static StructMember stVSC_signedchar14 = {&stVSC_signedchar15, (Type *) &stsignedchar, NULL, 14, 0};
static StructMember stVSC_signedchar13 = {&stVSC_signedchar14, (Type *) &stsignedchar, NULL, 13, 0};
static StructMember stVSC_signedchar12 = {&stVSC_signedchar13, (Type *) &stsignedchar, NULL, 12, 0};
static StructMember stVSC_signedchar11 = {&stVSC_signedchar12, (Type *) &stsignedchar, NULL, 11, 0};
static StructMember stVSC_signedchar10 = {&stVSC_signedchar11, (Type *) &stsignedchar, NULL, 10, 0};
static StructMember stVSC_signedchar9 = {&stVSC_signedchar10, (Type *) &stsignedchar, NULL, 9, 0};
static StructMember stVSC_signedchar8 = {&stVSC_signedchar9, (Type *) &stsignedchar, NULL, 8, 0};
static StructMember stVSC_signedchar7 = {&stVSC_signedchar7, (Type *) &stsignedchar, NULL, 7, 0};
static StructMember stVSC_signedchar6 = {&stVSC_signedchar7, (Type *) &stsignedchar, NULL, 6, 0};
static StructMember stVSC_signedchar5 = {&stVSC_signedchar6, (Type *) &stsignedchar, NULL, 5, 0};
static StructMember stVSC_signedchar4 = {&stVSC_signedchar5, (Type *) &stsignedchar, NULL, 4, 0};
static StructMember stVSC_signedchar3 = {&stVSC_signedchar4, (Type *) &stsignedchar, NULL, 3, 0};
static StructMember stVSC_signedchar2 = {&stVSC_signedchar3, (Type *) &stsignedchar, NULL, 2, 0};
static StructMember stVSC_signedchar1 = {&stVSC_signedchar2, (Type *) &stsignedchar, NULL, 1, 0};
static StructMember stVSC_signedchar0 = {&stVSC_signedchar1, (Type *) &stsignedchar, NULL, 0, 0};

static StructMember stVUS_unsignedshort7 = {NULL, (Type *) &stunsignedshort, NULL, 14, 0};
static StructMember stVUS_unsignedshort6 = {&stVUS_unsignedshort7, (Type *) &stunsignedshort, NULL, 12, 0};
static StructMember stVUS_unsignedshort5 = {&stVUS_unsignedshort7, (Type *) &stunsignedshort, NULL, 10, 0};
static StructMember stVUS_unsignedshort4 = {&stVUS_unsignedshort5, (Type *) &stunsignedshort, NULL, 8, 0};
static StructMember stVUS_unsignedshort3 = {&stVUS_unsignedshort4, (Type *) &stunsignedshort, NULL, 6, 0};
static StructMember stVUS_unsignedshort2 = {&stVUS_unsignedshort3, (Type *) &stunsignedshort, NULL, 4, 0};
static StructMember stVUS_unsignedshort1 = {&stVUS_unsignedshort2, (Type *) &stunsignedshort, NULL, 2, 0};
static StructMember stVUS_unsignedshort0 = {&stVUS_unsignedshort1, (Type *) &stunsignedshort, NULL, 0, 0};

static StructMember stVSS_signedshort7 = {NULL, (Type *) &stsignedshort, NULL, 14, 0};
static StructMember stVSS_signedshort6 = {&stVSS_signedshort7, (Type *) &stsignedshort, NULL, 12, 0};
static StructMember stVSS_signedshort5 = {&stVSS_signedshort7, (Type *) &stsignedshort, NULL, 10, 0};
static StructMember stVSS_signedshort4 = {&stVSS_signedshort5, (Type *) &stsignedshort, NULL, 8, 0};
static StructMember stVSS_signedshort3 = {&stVSS_signedshort4, (Type *) &stsignedshort, NULL, 6, 0};
static StructMember stVSS_signedshort2 = {&stVSS_signedshort3, (Type *) &stsignedshort, NULL, 4, 0};
static StructMember stVSS_signedshort1 = {&stVSS_signedshort2, (Type *) &stsignedshort, NULL, 2, 0};
static StructMember stVSS_signedshort0 = {&stVSS_signedshort1, (Type *) &stsignedshort, NULL, 0, 0};

static StructMember stVUL_unsignedlong3 = {NULL, (Type *) &stunsignedlong, NULL, 12, 0};
static StructMember stVUL_unsignedlong2 = {&stVUL_unsignedlong3, (Type *) &stunsignedlong, NULL, 8, 0};
static StructMember stVUL_unsignedlong1 = {&stVUL_unsignedlong2, (Type *) &stunsignedlong, NULL, 4, 0};
static StructMember stVUL_unsignedlong0 = {&stVUL_unsignedlong1, (Type *) &stunsignedlong, NULL, 0, 0};

static StructMember stVSL_signedlong3 = {NULL, (Type *) &stsignedlong, NULL, 12, 0};
static StructMember stVSL_signedlong2 = {&stVSL_signedlong3, (Type *) &stsignedlong, NULL, 8, 0};
static StructMember stVSL_signedlong1 = {&stVSL_signedlong2, (Type *) &stsignedlong, NULL, 4, 0};
static StructMember stVSL_signedlong0 = {&stVSL_signedlong1, (Type *) &stsignedlong, NULL, 0, 0};

static StructMember stVF_float3 = {NULL, (Type *) &stfloat, NULL, 12, 0};
static StructMember stVF_float2 = {&stVF_float3, (Type *) &stfloat, NULL, 8, 0};
static StructMember stVF_float1 = {&stVF_float2, (Type *) &stfloat, NULL, 4, 0};
static StructMember stVF_float0 = {&stVF_float1, (Type *) &stfloat, NULL, 0, 0};

TypeStruct stvectorunsignedchar = {TYPESTRUCT, 16, NULL, &stVUC_unsignedchar0, STRUCT_TYPE_4, 16};
TypeStruct stvectorsignedchar = {TYPESTRUCT, 16, NULL, &stVSC_signedchar0, STRUCT_TYPE_5, 16};
TypeStruct stvectorboolchar = {TYPESTRUCT, 16, NULL, &stVSC_signedchar0, STRUCT_TYPE_6, 16};

TypeStruct stvectorunsignedshort = {TYPESTRUCT, 16, NULL, &stVUS_unsignedshort0, STRUCT_TYPE_7, 16};
TypeStruct stvectorsignedshort = {TYPESTRUCT, 16, NULL, &stVSS_signedshort0, STRUCT_TYPE_8, 16};
TypeStruct stvectorboolshort = {TYPESTRUCT, 16, NULL, &stVSS_signedshort0, STRUCT_TYPE_9, 16};

TypeStruct stvectorunsignedlong = {TYPESTRUCT, 16, NULL, &stVUL_unsignedlong0, STRUCT_TYPE_A, 16};
TypeStruct stvectorsignedlong = {TYPESTRUCT, 16, NULL, &stVSL_signedlong0, STRUCT_TYPE_B, 16};
TypeStruct stvectorboollong = {TYPESTRUCT, 16, NULL, &stVSL_signedlong0, STRUCT_TYPE_C, 16};

TypeStruct stvectorfloat = {TYPESTRUCT, 16, NULL, &stVF_float0, STRUCT_TYPE_D, 16};

TypeStruct stvectorpixel = {TYPESTRUCT, 16, NULL, &stVUS_unsignedshort0, STRUCT_TYPE_E, 16};

TypeStruct stvector = {TYPESTRUCT, 16, NULL, NULL, STRUCT_TYPE_A, 16};

static SInt32 cmach_structoffset;
static UInt8 cmach_structalign;
static short cmach_curbfsize;
static short cmach_curbfbasesize;
static int cmach_curbfoffset;

static short cmach_packsize[] = {
        1, 2, 4, 8, 16
};

// forward declarations
static SInt16 CMach_GetQualifiedTypeAlign(Type *type, Boolean flag);
static SInt16 CMach_GetMemberAlignment(Type *type, SInt32 align, Boolean flag);

void CMach_Configure(void) {
}

SInt32 CMach_GetQUALalign(UInt32 qual) {
    SInt32 result = 0;
    SInt32 chk;

    if ((chk = (qual & Q_ALIGNED_MASK))) {
        if (chk == Q_ALIGNED_1)
            result = 1;
        else if (chk == Q_ALIGNED_2)
            result = 2;
        else if (chk == Q_ALIGNED_4)
            result = 4;
        else if (chk == Q_ALIGNED_8)
            result = 8;
        else if (chk == Q_ALIGNED_16)
            result = 16;
        else if (chk == Q_ALIGNED_32)
            result = 32;
        else if (chk == Q_ALIGNED_64)
            result = 64;
        else if (chk == Q_ALIGNED_128)
            result = 128;
        else if (chk == Q_ALIGNED_256)
            result = 256;
        else if (chk == Q_ALIGNED_512)
            result = 512;
        else if (chk == Q_ALIGNED_1024)
            result = 1024;
        else if (chk == Q_ALIGNED_2048)
            result = 2048;
        else if (chk == Q_ALIGNED_4096)
            result = 4096;
        else if (chk == Q_ALIGNED_8192)
            result = 8192;
        else
            CError_FATAL(226);
    }

    return result;
}

SInt32 CMach_ArgumentAlignment(Type *type) {
    char save_align_mode;
    UInt8 save_oldalignment;
    SInt32 align;

    save_align_mode = copts.align_mode;
    save_oldalignment = copts.oldalignment;
    copts.align_mode = AlignMode2_PPC;
    copts.oldalignment = 0;
    align = CMach_GetQualifiedTypeAlign(type, 0);
    copts.align_mode = save_align_mode;
    copts.oldalignment = save_oldalignment;

    if (type->type == TYPESTRUCT && !TYPE_STRUCT(type)->members && TYPE_STRUCT(type)->align > align)
        align = TYPE_STRUCT(type)->align;

    return align;
}

// TODO: investigate if this returns SInt16 actually
SInt32 CMach_AllocationAlignment(Type *type, UInt32 qual) {
    SInt32 align;
    SInt32 qualalign;
    SInt32 argalign;
    SInt32 anotheralign;

    qualalign = CMach_GetQUALalign(qual);
    align = CMach_GetQualifiedTypeAlign(type, 1);
    if (qualalign > align)
        align = qualalign;
    argalign = CMach_ArgumentAlignment(type);
    if (argalign > align)
        align = argalign;

    switch (type->type) {
        case TYPEVOID:
        case TYPEMEMBERPOINTER:
        case TYPEPOINTER:
            anotheralign = 4;
            break;
        default:
            anotheralign = 1;
    }
    if (anotheralign > align)
        align = anotheralign;

    if (copts.optimizationlevel > 0) {
        if (type->type == TYPEARRAY || (type->type == TYPESTRUCT && (TYPE_STRUCT(type)->stype < STRUCT_TYPE_4 || TYPE_STRUCT(type)->stype > STRUCT_TYPE_E)) || type->type == TYPECLASS || (type->type == TYPEMEMBERPOINTER && (UInt32) type->size == 12)) {
            return (copts.some_alignment > align) ? copts.some_alignment : align;
        }
    }

    return align;
}

CInt64 CMach_CalcIntDiadic(Type *type, CInt64 left, short op, CInt64 right) {
    if (is_unsigned(type)) {
        switch (type->size) {
            case 1:
                CInt64_ConvertUInt8(&left);
                CInt64_ConvertUInt8(&right);
                break;
            case 2:
                CInt64_ConvertUInt16(&left);
                CInt64_ConvertUInt16(&right);
                break;
            case 4:
                CInt64_ConvertUInt32(&left);
                CInt64_ConvertUInt32(&right);
                break;
            case 8:
                break;
            default:
                CError_FATAL(327);
        }

        switch (op) {
            case '*':
                left = CInt64_MulU(left, right);
                break;
            case '/':
                if (CInt64_IsZero(&right))
                    CError_Warning(CErrorStr139);
                else
                    left = CInt64_DivU(left, right);
                break;
            case '%':
                if (CInt64_IsZero(&right))
                    CError_Warning(CErrorStr139);
                else
                    left = CInt64_ModU(left, right);
                break;
            case '+':
                left = CInt64_Add(left, right);
                break;
            case '-':
                left = CInt64_Sub(left, right);
                break;
            case TK_SHL:
                left = CInt64_Shl(left, right);
                break;
            case TK_SHR:
                left = CInt64_ShrU(left, right);
                break;
            case '<':
                CInt64_SetLong(&left, CInt64_LessU(left, right));
                break;
            case '>':
                CInt64_SetLong(&left, CInt64_GreaterU(left, right));
                break;
            case TK_LESS_EQUAL:
                CInt64_SetLong(&left, CInt64_LessEqualU(left, right));
                break;
            case TK_GREATER_EQUAL:
                CInt64_SetLong(&left, CInt64_GreaterEqualU(left, right));
                break;
            case TK_LOGICAL_EQ:
                CInt64_SetLong(&left, CInt64_Equal(left, right));
                break;
            case TK_LOGICAL_NE:
                CInt64_SetLong(&left, CInt64_NotEqual(left, right));
                break;
            case '&':
                left = CInt64_And(left, right);
                break;
            case '^':
                left = CInt64_Xor(left, right);
                break;
            case '|':
                left = CInt64_Or(left, right);
                break;
            case TK_LOGICAL_AND:
                CInt64_SetLong(&left, (!CInt64_IsZero(&left) && !CInt64_IsZero(&right)));
                break;
            case TK_LOGICAL_OR:
                CInt64_SetLong(&left, (!CInt64_IsZero(&left) || !CInt64_IsZero(&right)));
                break;
            default:
                CError_Error(CErrorStr120);
        }

        switch (type->size) {
            case 1:
                CInt64_ConvertUInt8(&left);
                break;
            case 2:
                CInt64_ConvertUInt16(&left);
                break;
            case 4:
                CInt64_ConvertUInt32(&left);
                break;
            case 8:
                break;
        }
    } else {
        switch (type->size) {
            case 1:
                CInt64_ConvertInt8(&left);
                CInt64_ConvertInt8(&right);
                break;
            case 2:
                CInt64_ConvertInt16(&left);
                CInt64_ConvertInt16(&right);
                break;
            case 4:
                CInt64_ConvertInt32(&left);
                CInt64_ConvertInt32(&right);
                break;
            case 8:
                break;
            default:
                CError_FATAL(389);
        }

        switch (op) {
            case '*':
                left = CInt64_Mul(left, right);
                break;
            case '/':
                if (CInt64_IsZero(&right))
                    CError_Warning(CErrorStr139);
                else
                    left = CInt64_Div(left, right);
                break;
            case '%':
                if (CInt64_IsZero(&right))
                    CError_Warning(CErrorStr139);
                else
                    left = CInt64_Mod(left, right);
                break;
            case '+':
                left = CInt64_Add(left, right);
                break;
            case '-':
                left = CInt64_Sub(left, right);
                break;
            case TK_SHL:
                left = CInt64_Shl(left, right);
                break;
            case TK_SHR:
                left = CInt64_Shr(left, right);
                break;
            case '<':
                CInt64_SetLong(&left, CInt64_Less(left, right));
                break;
            case '>':
                CInt64_SetLong(&left, CInt64_Greater(left, right));
                break;
            case TK_LESS_EQUAL:
                CInt64_SetLong(&left, CInt64_LessEqual(left, right));
                break;
            case TK_GREATER_EQUAL:
                CInt64_SetLong(&left, CInt64_GreaterEqual(left, right));
                break;
            case TK_LOGICAL_EQ:
                CInt64_SetLong(&left, CInt64_Equal(left, right));
                break;
            case TK_LOGICAL_NE:
                CInt64_SetLong(&left, CInt64_NotEqual(left, right));
                break;
            case '&':
                left = CInt64_And(left, right);
                break;
            case '^':
                left = CInt64_Xor(left, right);
                break;
            case '|':
                left = CInt64_Or(left, right);
                break;
            case TK_LOGICAL_AND:
                CInt64_SetLong(&left, (!CInt64_IsZero(&left) && !CInt64_IsZero(&right)));
                break;
            case TK_LOGICAL_OR:
                CInt64_SetLong(&left, (!CInt64_IsZero(&left) || !CInt64_IsZero(&right)));
                break;
            default:
                CError_Error(CErrorStr120);
        }

        switch (type->size) {
            case 1:
                CInt64_ConvertInt8(&left);
                break;
            case 2:
                CInt64_ConvertInt16(&left);
                break;
            case 4:
                CInt64_ConvertInt32(&left);
                break;
            case 8:
                break;
        }
    }

    return left;
}

CInt64 CMach_CalcIntMonadic(Type *type, short op, CInt64 val) {
    if (is_unsigned(type)) {
        switch (type->size) {
            case 1:
                CInt64_ConvertUInt8(&val);
                break;
            case 2:
                CInt64_ConvertUInt16(&val);
                break;
            case 4:
                CInt64_ConvertUInt32(&val);
                break;
            case 8:
                break;
            default:
                CError_FATAL(448);
        }

        switch (op) {
            case '-':
                val = CInt64_Neg(val);
                break;
            case '~':
                val = CInt64_Inv(val);
                break;
            case '!':
                val = CInt64_Not(val);
                break;
            default:
                CError_Error(CErrorStr120);
        }

        switch (type->size) {
            case 1:
                CInt64_ConvertUInt8(&val);
                break;
            case 2:
                CInt64_ConvertUInt16(&val);
                break;
            case 4:
                CInt64_ConvertUInt32(&val);
                break;
            case 8:
                break;
        }
    } else {
        switch (type->size) {
            case 1:
                CInt64_ConvertInt8(&val);
                break;
            case 2:
                CInt64_ConvertInt16(&val);
                break;
            case 4:
                CInt64_ConvertInt32(&val);
                break;
            case 8:
                break;
            default:
                CError_FATAL(478);
        }

        switch (op) {
            case '-':
                val = CInt64_Neg(val);
                break;
            case '~':
                val = CInt64_Inv(val);
                break;
            case '!':
                val = CInt64_Not(val);
                break;
            default:
                CError_Error(CErrorStr120);
        }

        switch (type->size) {
            case 1:
                CInt64_ConvertInt8(&val);
                break;
            case 2:
                CInt64_ConvertInt16(&val);
                break;
            case 4:
                CInt64_ConvertInt32(&val);
                break;
            case 8:
                break;
        }
    }

    return val;
}

CInt64 CMach_CalcIntConvertFromFloat(Type *type, Float fval) {
    CInt64 result;

    if ((type->type == TYPEINT || type->type == TYPEENUM) && (type->size == 8)) {
        if (is_unsigned(type))
            CInt64_ConvertUFromLongDouble(&result, fval.value);
        else
            CInt64_ConvertFromLongDouble(&result, fval.value);
    } else {
        if (is_unsigned(type))
            CInt64_SetULong(&result, fval.value);
        else
            CInt64_SetLong(&result, fval.value);
    }

    return result;
}

void CMach_InitIntMem(Type *type, CInt64 val, void *mem) {
    UInt32 lg;
    UInt16 sh;
    UInt8 ch;

    switch (type->type) {
        case TYPEINT:
            switch (type->size) {
                case 1:
                    ch = (UInt8) CInt64_GetULong(&val);
                    memcpy(mem, &ch, 1);
                    break;
                case 2:
                    sh = (UInt16) CTool_EndianConvertWord16(CInt64_GetULong(&val));
                    memcpy(mem, &sh, 2);
                    break;
                case 4:
                    lg = (UInt32) CTool_EndianConvertWord32(CInt64_GetULong(&val));
                    memcpy(mem, &lg, 4);
                    break;
                case 8:
                    CTool_EndianConvertWord64(val, mem);
                    break;
                default:
                    CError_FATAL(566);
            }
            break;
        default:
            CError_FATAL(570);
    }
}

void CMach_InitVectorMem(Type *type, MWVector128 val, void *mem, Boolean flag) {
    unsigned char uc[16];
    unsigned short us[8];
    unsigned int ul[4];
    float f[4];
    int i;

    switch (type->type) {
        case TYPESTRUCT:
            switch (TYPE_STRUCT(type)->stype) {
                case STRUCT_TYPE_4:
                case STRUCT_TYPE_5:
                case STRUCT_TYPE_6:
                    for (i = 0; i < 16; i++)
                        uc[i] = val.uc[i];
                    memcpy(mem, uc, 16);
                    break;
                case STRUCT_TYPE_7:
                case STRUCT_TYPE_8:
                case STRUCT_TYPE_9:
                case STRUCT_TYPE_E:
                    for (i = 0; i < 8; i++)
                        us[i] = val.us[i];
                    memcpy(mem, us, 16);
                    break;
                case STRUCT_TYPE_A:
                case STRUCT_TYPE_B:
                case STRUCT_TYPE_C:
                    for (i = 0; i < 4; i++)
                        ul[i] = val.ul[i];
                    memcpy(mem, ul, 16);
                    break;
                case STRUCT_TYPE_D:
                    for (i = 0; i < 4; i++)
                        f[i] = val.f[i];
                    memcpy(mem, f, 16);
                    break;
                default:
                    CError_FATAL(655);
            }
            break;
        default:
            CError_FATAL(659);
    }
}

Float CMach_CalcFloatDiadic(Type *type, Float left, short op, Float right) {
    switch (op) {
        case '+':
            left.value += right.value;
            break;
        case '-':
            left.value -= right.value;
            break;
        case '*':
            left.value *= right.value;
            break;
        case '/':
            left.value /= right.value;
            break;
        default:
            CError_FATAL(679);
    }

    return CMach_CalcFloatConvert(type, left);
}

Float CMach_CalcFloatMonadic(Type *type, short op, Float fval) {
    if (op != '-')
        CError_FATAL(692);

    fval.value = -fval.value;
    return CMach_CalcFloatConvert(type, fval);
}

Boolean CMach_CalcFloatDiadicBool(Type *type, Float left, short op, Float right) {
    switch (op) {
        case TK_LOGICAL_EQ:
            return left.value == right.value;
        case TK_LOGICAL_NE:
            return left.value != right.value;
        case TK_LESS_EQUAL:
            return left.value <= right.value;
        case TK_GREATER_EQUAL:
            return left.value >= right.value;
        case '>':
            return left.value > right.value;
        case '<':
            return left.value < right.value;
        default:
            CError_FATAL(714);
            return 0;
    }
}

Boolean CMach_CalcVectorDiadicBool(Type *type, MWVector128 *left, short op, MWVector128 *right) {
    switch (op) {
        case TK_LOGICAL_EQ:
            return (left->ul[0] == right->ul[0]) && (left->ul[1] == right->ul[1]) && (left->ul[2] == right->ul[2]) && (left->ul[3] == right->ul[3]);
        case TK_LOGICAL_NE:
            return (left->ul[0] != right->ul[0]) && (left->ul[1] != right->ul[1]) && (left->ul[2] != right->ul[2]) && (left->ul[3] != right->ul[3]);
        default:
            CError_FATAL(740);
            return 0;
    }
}

char *CMach_FloatScan(char *input, Float *result, Boolean *fail) {
    double resultval;
    char *outpos;

    if (!(outpos = ScanFloat(input, &resultval, fail)))
        CError_ErrorTerm(CErrorStr154);

    if (*fail)
        result->value = 0.0;
    else
        result->value = resultval;

    return outpos;
}

Float CMach_CalcFloatConvertFromInt(Type *type, CInt64 val) {
    Float result;

    if ((type->type == TYPEINT || type->type == TYPEENUM) && (type->size == 8)) {
        if (is_unsigned(type))
            result.value = CInt64_ConvertUToLongDouble(&val);
        else
            result.value = CInt64_ConvertToLongDouble(&val);
    } else {
        if (is_unsigned(type))
            result.value = val.lo;
        else
            result.value = (SInt32) val.lo;
    }

    return result;
}

Float CMach_CalcFloatConvert(Type *type, Float fval) {
    switch (type->size) {
        case 4:
            fval.value = (float) fval.value;
            break;
        case 8:
            fval.value = (double) fval.value;
            break;
        case 10:
        case 12:
            break;
        default:
            CError_FATAL(801);
    }
    return fval;
}

Boolean CMach_FloatIsZero(Float fval) {
    return fval.value == 0.0;
}

Boolean CMach_FloatIsOne(Float fval) {
    return fval.value == 1.0;
}

Boolean CMach_FloatIsNegOne(Float fval) {
    return fval.value == -1.0;
}

void CMach_InitFloatMem(Type *type, Float val, void *mem) {
    float f;
    double d;

    if (type->type == TYPEFLOAT) {
        switch (type->size) {
            case 4:
                f = val.value;
                memcpy(mem, &f, 4);
                CTool_EndianConvertMem(mem, 4);
                return;
            case 8:
                d = val.value;
                memcpy(mem, &d, 8);
                CTool_EndianConvertMem(mem, 8);
                return;
        }
    }

    CError_FATAL(866);
}

void CMach_PrintFloat(char *buf, Float val) {
    double f;
    CMach_InitFloatMem((Type *) &stshortdouble, val, &f);
    sprintf(buf, "%g", f);
}

void CMach_PragmaParams(void) {
    if (copts.warn_illpragma)
        CError_Warning(CErrorStr186, 0);

    while (notendofline())
        lex();
}

void CMach_AdjustFuntionArgs() {
    // not called so we will never know what the args should have been :(
}

static SInt32 CMach_GetPPCTypeAlign(Type *type, Boolean flag1, Boolean flag2) {
    ClassList *base;
    ObjMemberVar *ivar;
    StructMember *member;
    SInt32 best;
    SInt32 ivarAlign;
    SInt32 qualAlign;

    SInt32 align = CMach_GetQualifiedTypeAlign(type, flag2);
    if (align <= 8) {
        while (type->type == TYPEARRAY)
            type = TYPE_POINTER(type)->target;

        if (flag1) {
            if (type->type == TYPEFLOAT && type->size > 4 && align < 8)
                return 8;
        } else if (align == 8) {
            if (type->type == TYPECLASS) {
                best = 4;
                for (base = TYPE_CLASS(type)->bases; base; base = base->next) {
                    if (base->base->align > best)
                        best = base->base->align;
                }
                for (ivar = TYPE_CLASS(type)->ivars; ivar; ivar = ivar->next) {
                    ivarAlign = CMach_GetPPCTypeAlign(ivar->type, 0, flag2);
                    if (ivarAlign > best)
                        best = ivarAlign;
                    if (flag2) {
                        qualAlign = CMach_GetQUALalign(ivar->qual);
                        if (qualAlign > best)
                            best = qualAlign;
                    }
                }
                return best;
            }
            if (type->type == TYPESTRUCT) {
                best = 4;
                for (member = TYPE_STRUCT(type)->members; member; member = member->next) {
                    ivarAlign = CMach_GetPPCTypeAlign(member->type, 0, flag2);
                    if (ivarAlign > best)
                        best = ivarAlign;
                    if (flag2) {
                        qualAlign = CMach_GetQUALalign(member->qual);
                        if (qualAlign > best)
                            best = qualAlign;
                    }
                }
                return best;
            }
        }
    }

    return align;
}

static SInt16 CMach_GetQualifiedStructAlign(const TypeStruct *tstruct, Boolean flag) {
    StructMember *member;
    SInt32 best;
    SInt32 align;
    Boolean isFirst;

    if (tstruct->stype >= STRUCT_TYPE_4 && tstruct->stype <= STRUCT_TYPE_E)
        return 16;

    switch (copts.align_mode) {
        case AlignMode3_1Byte:
        case AlignMode8_Packed:
            return 1;
        case AlignMode0_Mac68k:
            return 2;
        case AlignMode1_Mac68k4byte:
            return (tstruct->size <= 2) ? 2 : 4;
    }

    if (tstruct->size <= 1)
        return 1;

    best = 1;
    switch (copts.align_mode) {
        default:
            CError_FATAL(1026);
        case AlignMode4_2Byte:
        case AlignMode5_4Byte:
        case AlignMode6_8Byte:
        case AlignMode7_16Byte:
            for (member = tstruct->members; member; member = member->next) {
                align = CMach_GetQualifiedTypeAlign(member->type, flag);
                if (align > best)
                    best = align;
                if (flag) {
                    align = CMach_GetQUALalign(member->qual);
                    if (align > best)
                        best = align;
                }
            }
            return best;
        case AlignMode2_PPC:
            if (copts.oldalignment) {
                for (member = tstruct->members; member; member = member->next) {
                    align = CMach_GetQualifiedTypeAlign(member->type, flag);
                    if (align > best)
                        best = align;
                    if (flag) {
                        align = CMach_GetQUALalign(member->qual);
                        if (align > best)
                            best = align;
                    }
                }
            } else if (TYPE_STRUCT(tstruct)->stype == STRUCT_TYPE_UNION) {
                for (member = tstruct->members; member; member = member->next) {
                    align = CMach_GetPPCTypeAlign(member->type, 1, flag);
                    if (align > best)
                        best = align;
                    if (flag) {
                        align = CMach_GetQUALalign(member->qual);
                        if (align > best)
                            best = align;
                    }
                }
            } else {
                isFirst = 1;
                for (member = tstruct->members; member; member = member->next) {
                    align = CMach_GetPPCTypeAlign(member->type, isFirst || (best >= 8), flag);
                    if (align > best)
                        best = align;
                    if (flag) {
                        align = CMach_GetQUALalign(member->qual);
                        if (align > best)
                            best = align;
                    }
                    isFirst = 0;
                }
            }
            return best;
    }
}

SInt16 CMach_GetStructAlign(TypeStruct *tstruct) {
    return CMach_GetQualifiedStructAlign(tstruct, 1);
}

static SInt16 CMach_GetQualifiedClassAlign(TypeClass *tclass, Boolean flag) {
    ClassList *base;
    ObjMemberVar *ivar;
    SInt32 best;
    SInt32 align;
    Boolean isFirst;

    switch (copts.align_mode) {
        case AlignMode3_1Byte:
        case AlignMode8_Packed:
            return 1;
        case AlignMode0_Mac68k:
            return 2;
        case AlignMode1_Mac68k4byte:
            return (tclass->size <= 2) ? 2 : 4;
    }
    if (tclass->size <= 1)
        return 1;
    best = 1;
    switch (copts.align_mode) {
        default:
            CError_FATAL(1149);
        case AlignMode4_2Byte:
        case AlignMode5_4Byte:
        case AlignMode6_8Byte:
        case AlignMode7_16Byte:
            for (base = tclass->bases; base; base = base->next) {
                if ((align = base->base->align) > best)
                    best = align;
            }
            for (ivar = tclass->ivars; ivar; ivar = ivar->next) {
                align = CMach_GetMemberAlignment(ivar->type, flag ? CMach_GetQUALalign(ivar->qual) : 0, flag);
                if (align > best)
                    best = align;
            }
            return best;
        case AlignMode2_PPC:
            best = 1;
            if (copts.oldalignment) {
                for (base = tclass->bases; base; base = base->next) {
                    if ((align = base->base->align) > best)
                        best = align;
                }
                for (ivar = tclass->ivars; ivar; ivar = ivar->next) {
                    align = CMach_GetMemberAlignment(ivar->type, flag ? CMach_GetQUALalign(ivar->qual) : 0, flag);
                    if (align > best)
                        best = align;
                }
            } else {
                isFirst = 1;
                for (base = tclass->bases; base; base = base->next) {
                    if ((align = base->base->align) > best)
                        best = align;
                    isFirst = 0;
                }
                if (tclass->mode == 1) {
                    for (ivar = tclass->ivars; ivar; ivar = ivar->next) {
                        align = CMach_GetPPCTypeAlign(ivar->type, 1, flag);
                        if (align > best)
                            best = align;
                        if (flag) {
                            align = CMach_GetQUALalign(ivar->qual);
                            if (align > best)
                                best = align;
                        }
                    }
                } else {
                    for (ivar = tclass->ivars; ivar; ivar = ivar->next) {
                        if (ivar->offset && align != 8)
                            isFirst = 0;
                        align = CMach_GetPPCTypeAlign(ivar->type, isFirst || (best >= 8), flag);
                        if (align > best)
                            best = align;
                        if (flag) {
                            align = CMach_GetQUALalign(ivar->qual);
                            if (align > best)
                                best = align;
                        }
                    }
                }
            }
            return best;
    }
}

SInt16 CMach_GetClassAlign(TypeClass *tclass) {
    return CMach_GetQualifiedClassAlign(tclass, 1);
}

static SInt16 CMach_GetWinTypeAlign(Type *type) {
    int packoffs = copts.align_mode - 3;
    SInt32 align = cmach_packsize[packoffs];
    if (type->size < align)
        align = type->size;
    return align;
}

static SInt16 CMach_GetWinMinimizeAlign(SInt16 align) {
    int packoffs = copts.align_mode - 3;
    SInt16 minimum = cmach_packsize[packoffs];
    if (minimum < align)
        align = minimum;
    return align;
}

static SInt16 CMach_GetQualifiedTypeAlign(Type *type, Boolean flag) {
    Boolean isWin;
    SInt16 align;

    if (type->type == TYPESTRUCT && TYPE_STRUCT(type)->stype >= STRUCT_TYPE_4 && TYPE_STRUCT(type)->stype <= STRUCT_TYPE_E)
        return 16;

    switch (copts.align_mode) {
        case AlignMode3_1Byte:
        case AlignMode8_Packed:
            return 1;
        case AlignMode4_2Byte:
        case AlignMode5_4Byte:
        case AlignMode6_8Byte:
        case AlignMode7_16Byte:
            isWin = 1;
            break;
        default:
            isWin = 0;
            break;
    }

restart:
    switch (type->type) {
        case TYPEVOID:
            return 0;
        case TYPEFUNC:
            return 0;
        case TYPEENUM:
            type = TYPE_ENUM(type)->enumtype;
        case TYPEINT:
            if (isWin)
                return CMach_GetWinTypeAlign(type);
            if (type->size == 1)
                return 1;
            if (copts.oldalignment && type->size == 8)
                return 8;
            if (copts.align_mode != AlignMode0_Mac68k && type->size >= 4)
                return 4;
            return 2;
        case TYPEFLOAT:
            if (isWin)
                return CMach_GetWinTypeAlign(type);
            switch (copts.align_mode) {
                case AlignMode0_Mac68k:
                    return 2;
                case AlignMode1_Mac68k4byte:
                    return 4;
                case AlignMode2_PPC:
                    if (copts.oldalignment && type->size > 4)
                        return 8;
                    return 4;
                default:
                    CError_FATAL(1346);
            }
        case TYPEMEMBERPOINTER:
        case TYPEPOINTER:
            if (isWin)
                return CMach_GetWinTypeAlign(type);
            if (copts.align_mode == AlignMode0_Mac68k)
                return 2;
            else
                return 4;
        case TYPEARRAY:
            if (copts.align_array_members) {
                if (isWin)
                    return CMach_GetWinTypeAlign(type);
                if (type->size == 1)
                    return 1;
                if (copts.align_mode == AlignMode0_Mac68k || type->size <= 2)
                    return 2;
                if (copts.align_mode == AlignMode1_Mac68k4byte || type->size < 8)
                    return 4;
                align = CMach_GetQualifiedTypeAlign(TYPE_POINTER(type)->target, flag);
                if (align > 4)
                    return align;
                else
                    return 4;
            } else {
                type = TYPE_POINTER(type)->target;
                goto restart;
            }
        case TYPESTRUCT:
            if (flag)
                align = TYPE_STRUCT(type)->align;
            else
                align = CMach_GetQualifiedStructAlign(TYPE_STRUCT(type), flag);
            if (isWin)
                return CMach_GetWinMinimizeAlign(align);
            else
                return align;
        case TYPECLASS:
            if (flag)
                align = TYPE_CLASS(type)->align;
            else
                align = CMach_GetQualifiedClassAlign(TYPE_CLASS(type), flag);
            if (isWin)
                return CMach_GetWinMinimizeAlign(align);
            else
                return align;
        case TYPEBITFIELD:
            type = TYPE_BITFIELD(type)->bitfieldtype;
            goto restart;
        case TYPETEMPLATE:
            return 1;
        default:
            CError_FATAL(1392);
            return 0;
    }
}

SInt16 CMach_GetTypeAlign(Type *type) {
    return CMach_GetQualifiedTypeAlign(type, 1);
}

static SInt16 CMach_GetMemberAlignment(Type *type, SInt32 var, Boolean flag) {
    SInt32 align;

    align = CMach_GetQualifiedTypeAlign(type, flag);
    if (align < 1)
        align = 1;

    if (IS_TYPE_VECTOR(type) && align < 16)
        align = 16;

    switch (copts.align_mode) {
        case AlignMode8_Packed:
            align = 1;
            break;
        case AlignMode0_Mac68k:
            if (align > 2)
                align = 2;
            break;
        case AlignMode1_Mac68k4byte:
            if (align > 4)
                align = 4;
            break;
        case AlignMode2_PPC:
            if (!copts.oldalignment)
                align = CMach_GetPPCTypeAlign(type, !cmach_structoffset || (cmach_structalign >= 8), flag);
            if (var > align)
                align = var;
            break;
    }

    if (align > cmach_structalign)
        cmach_structalign = align;
    return align;
}

SInt16 CMach_MemberAlignValue(Type *type, SInt32 var) {
    SInt16 align = CMach_GetMemberAlignment(type, 0, 1);
    if (align <= 1)
        return 0;

    return (align - 1) & (align - (var & (align - 1)));
}

static SInt16 MemberAlignValue(Type *type, SInt32 var1, SInt32 var2) {
    SInt16 align = CMach_GetMemberAlignment(type, var2, 1);
    return (align - 1) & (align - (var1 & (align - 1)));
}

void CMach_StructLayoutInitOffset(SInt32 offset) {
    cmach_structoffset = offset;
    cmach_structalign = 4;
    cmach_curbfsize = 0;
}

SInt32 CMach_StructLayoutGetCurSize(void) {
    return cmach_structoffset;
}

SInt32 CMach_StructLayoutGetOffset(Type *type, UInt32 qual) {
    SInt32 align;
    SInt32 offset;

    qual = CParser_GetTypeQualifiers(type, qual);

    cmach_curbfsize = 0;
    align = MemberAlignValue(type, cmach_structoffset, CMach_GetQUALalign(qual));
    offset = cmach_structoffset + align;
    cmach_structoffset = offset + type->size;
    return offset;
}

SInt32 CMach_StructLayoutBitfield(TypeBitfield *tbitfield, UInt32 qual) {
    SInt16 align;
    SInt16 padding_at_start;
    SInt16 basesize;
    SInt16 basesize_bits;
    SInt16 required_alignment;
    SInt16 r4;

    padding_at_start = 0;
    required_alignment = 0;
    align = CMach_GetQUALalign(qual);
    if (align <= tbitfield->bitfieldtype->size)
        align = 0;

    switch (tbitfield->bitfieldtype->size) {
        case 1:
            basesize = 1;
            basesize_bits = 8;
            required_alignment = 0;
            break;
        case 2:
            basesize = 2;
            basesize_bits = 16;
            required_alignment = 2;
            break;
        case 4:
            if (copts.align_mode != AlignMode0_Mac68k && copts.align_mode != AlignMode4_2Byte)
                required_alignment = 4;
            else
                required_alignment = 2;
            basesize = 4;
            basesize_bits = 32;
            break;
        default:
            CError_FATAL(1620);
    }

    switch (copts.align_mode) {
        case AlignMode3_1Byte:
        case AlignMode8_Packed:
            required_alignment = 0;
            break;
    }

    r4 = required_alignment;
    if (align > required_alignment)
        r4 = align;
    if (r4 && (cmach_structoffset & (r4 - 1)))
        padding_at_start = r4 - (cmach_structoffset & (r4 - 1));

    if (!cmach_curbfsize) {
        cmach_structoffset += padding_at_start;
        if (!tbitfield->unkB)
            return cmach_structoffset;
        cmach_curbfsize = tbitfield->unkB;
        cmach_curbfbasesize = basesize;
        cmach_curbfoffset = cmach_structoffset;
        cmach_structoffset += basesize;
        tbitfield->unkA = 0;
        return cmach_curbfoffset;
    } else {
        if (!tbitfield->unkB || (cmach_curbfsize + tbitfield->unkB) > basesize_bits || cmach_curbfbasesize != basesize) {
            cmach_structoffset += padding_at_start;
            cmach_curbfsize = 0;
            cmach_curbfbasesize = basesize;
            if (!tbitfield->unkB)
                return cmach_structoffset;
            cmach_curbfoffset = cmach_structoffset;
            cmach_structoffset += basesize;
        }
        tbitfield->unkA = cmach_curbfsize;
        cmach_curbfsize += tbitfield->unkB;
        return cmach_curbfoffset;
    }
}

static Boolean CMach_IsTrivialClass(TypeClass *tclass) {
    return !CClass_Constructor(tclass);
}

UInt8 CMach_GetFunctionResultClass(TypeFunc *tfunc) {
    switch (tfunc->functype->type) {
        case TYPESTRUCT:
            if (tfunc->functype->type == TYPESTRUCT && TYPE_STRUCT(tfunc->functype)->stype >= STRUCT_TYPE_4 && TYPE_STRUCT(tfunc->functype)->stype <= STRUCT_TYPE_E)
                return 0;
        case TYPECLASS:
        case TYPEMEMBERPOINTER:
            return CMach_PassResultInHiddenArg(tfunc->functype) ? 1 : 0;
        default:
            return 0;
    }
}

Boolean CMach_PassResultInHiddenArg(Type *type) {
    switch (type->type) {
        case TYPESTRUCT:
            if (TYPE_STRUCT(type)->stype >= STRUCT_TYPE_4 && TYPE_STRUCT(type)->stype <= STRUCT_TYPE_E)
                return 0;
            else
                return 1;
        case TYPECLASS:
            return 1;
        case TYPEMEMBERPOINTER:
            return (type->size == 4) ? 0 : 1;
        default:
            return 0;
    }
}

char *CMach_GetCPU(void) {
    switch (copts.cpu) {
        case CPU_PPC401: return "__PPC401__";
        case CPU_PPC403: return "__PPC403__";
        case CPU_PPC505: return "__PPC505__";
        case CPU_PPC509: return "__PPC509__";
        case CPU_PPC555: return "__PPC555__";
        case CPU_PPC556: return "__PPC556__";
        case CPU_PPC565: return "__PPC565__";
        case CPU_PPC601: return "__PPC601__";
        case CPU_PPC602: return "__PPC602__";
        case CPU_PPC603: return "__PPC603__";
        case CPU_PPC603e: return "__PPC603e__";
        case CPU_PPC604: return "__PPC604__";
        case CPU_PPC604e: return "__PPC604e__";
        case CPU_PPC740: return "__PPC740__";
        case CPU_PPC750: return "__PPC750__";
        case CPU_PPC801: return "__PPC801__";
        case CPU_PPC821: return "__PPC821__";
        case CPU_PPC823: return "__PPC823__";
        case CPU_PPC850: return "__PPC850__";
        case CPU_PPC860: return "__PPC860__";
        case CPU_PPC7400: return "__PPC7400__";
        case CPU_PPC7450: return "__PPC7450__";
        case CPU_PPC8240: return "__PPC8240__";
        case CPU_PPC8260: return "__PPC8260__";
        case CPU_PPCGEKKO: return "__PPCGEKKO__";
        case CPU_PPCELF: return "__PPCELF__";
        default: return NULL;
    }
}

Boolean CMach_FloatIsPowerOf2(Float flt) {
    return (flt.value == 2.0) ||
            (flt.value == 4.0) ||
            (flt.value == 8.0) ||
            (flt.value == 16.0) ||
            (flt.value == 32.0) ||
            (flt.value == 64.0) ||
            (flt.value == 128.0) ||
            (flt.value == 256.0) ||
            (flt.value == 512.0) ||
            (flt.value == 1024.0);
}

Float CMach_FloatReciprocal(Float flt) {
    flt.value = 1.0 / flt.value;
    return flt;
}

SInt32 CMach_RoundedSizeOf(Object *object) {
    SInt32 size = object->type->size;
    SInt32 align = CMach_GetTypeAlign(object->type) - 1;
    return (size + align) & ~align;
}

void CMach_ReInitRuntimeObjects(void) {
    HashNameNode *e0 = GetHashNameNodeExport("[0]");
    HashNameNode *e1 = GetHashNameNodeExport("[1]");
    HashNameNode *e2 = GetHashNameNodeExport("[2]");
    HashNameNode *e3 = GetHashNameNodeExport("[3]");
    HashNameNode *e4 = GetHashNameNodeExport("[4]");
    HashNameNode *e5 = GetHashNameNodeExport("[5]");
    HashNameNode *e6 = GetHashNameNodeExport("[6]");
    HashNameNode *e7 = GetHashNameNodeExport("[7]");
    HashNameNode *e8 = GetHashNameNodeExport("[8]");
    HashNameNode *e9 = GetHashNameNodeExport("[9]");
    HashNameNode *e10 = GetHashNameNodeExport("[10]");
    HashNameNode *e11 = GetHashNameNodeExport("[11]");
    HashNameNode *e12 = GetHashNameNodeExport("[12]");
    HashNameNode *e13 = GetHashNameNodeExport("[13]");
    HashNameNode *e14 = GetHashNameNodeExport("[14]");
    HashNameNode *e15 = GetHashNameNodeExport("[15]");
    HashNameNode *vuc = GetHashNameNodeExport("vector unsigned char");
    HashNameNode *vus = GetHashNameNodeExport("vector unsigned short");
    HashNameNode *vui = GetHashNameNodeExport("vector unsigned int");
    HashNameNode *vsc = GetHashNameNodeExport("vector signed char");
    HashNameNode *vss = GetHashNameNodeExport("vector signed short");
    HashNameNode *vsi = GetHashNameNodeExport("vector signed int");
    HashNameNode *vbc = GetHashNameNodeExport("vector bool char");
    HashNameNode *vbs = GetHashNameNodeExport("vector bool short");
    HashNameNode *vbi = GetHashNameNodeExport("vector bool int");
    HashNameNode *vf = GetHashNameNodeExport("vector float");
    HashNameNode *vp = GetHashNameNodeExport("vector pixel");

    stvectorunsignedchar.name = vuc;
    stvectorunsignedshort.name = vus;
    stvectorunsignedlong.name = vui;
    stvectorsignedchar.name = vsc;
    stvectorsignedshort.name = vss;
    stvectorsignedlong.name = vsi;
    stvectorboolchar.name = vbc;
    stvectorboolshort.name = vbs;
    stvectorboollong.name = vbi;
    stvectorfloat.name = vf;
    stvectorpixel.name = vp;

    stVUC_unsignedchar0.name = e0;
    stVUC_unsignedchar1.name = e1;
    stVUC_unsignedchar2.name = e2;
    stVUC_unsignedchar3.name = e3;
    stVUC_unsignedchar4.name = e4;
    stVUC_unsignedchar5.name = e5;
    stVUC_unsignedchar6.name = e6;
    stVUC_unsignedchar7.name = e7;
    stVUC_unsignedchar8.name = e8;
    stVUC_unsignedchar9.name = e9;
    stVUC_unsignedchar10.name = e10;
    stVUC_unsignedchar11.name = e11;
    stVUC_unsignedchar12.name = e12;
    stVUC_unsignedchar13.name = e13;
    stVUC_unsignedchar14.name = e14;
    stVUC_unsignedchar15.name = e15;
    stVSC_signedchar0.name = e0;
    stVSC_signedchar1.name = e1;
    stVSC_signedchar2.name = e2;
    stVSC_signedchar3.name = e3;
    stVSC_signedchar4.name = e4;
    stVSC_signedchar5.name = e5;
    stVSC_signedchar6.name = e6;
    stVSC_signedchar7.name = e7;
    stVSC_signedchar8.name = e8;
    stVSC_signedchar9.name = e9;
    stVSC_signedchar10.name = e10;
    stVSC_signedchar11.name = e11;
    stVSC_signedchar12.name = e12;
    stVSC_signedchar13.name = e13;
    stVSC_signedchar14.name = e14;
    stVSC_signedchar15.name = e15;

    stVUS_unsignedshort0.name = e0;
    stVUS_unsignedshort1.name = e1;
    stVUS_unsignedshort2.name = e2;
    stVUS_unsignedshort3.name = e3;
    stVUS_unsignedshort4.name = e4;
    stVUS_unsignedshort5.name = e5;
    stVUS_unsignedshort6.name = e6;
    stVUS_unsignedshort7.name = e7;
    stVSS_signedshort0.name = e0;
    stVSS_signedshort1.name = e1;
    stVSS_signedshort2.name = e2;
    stVSS_signedshort3.name = e3;
    stVSS_signedshort4.name = e4;
    stVSS_signedshort5.name = e5;
    stVSS_signedshort6.name = e6;
    stVSS_signedshort7.name = e7;

    stVUL_unsignedlong0.name = e0;
    stVUL_unsignedlong1.name = e1;
    stVUL_unsignedlong2.name = e2;
    stVUL_unsignedlong3.name = e3;
    stVSL_signedlong0.name = e0;
    stVSL_signedlong1.name = e1;
    stVSL_signedlong2.name = e2;
    stVSL_signedlong3.name = e3;

    stVF_float0.name = e0;
    stVF_float1.name = e1;
    stVF_float2.name = e2;
    stVF_float3.name = e3;
}