MWCC/compiler_and_linker/unsorted/CTemplateFunc.c

#include "compiler/CTemplateFunc.h"
#include "compiler/CABI.h"
#include "compiler/CDecl.h"
#include "compiler/CError.h"
#include "compiler/CExpr.h"
#include "compiler/CInline.h"
#include "compiler/CInt64.h"
#include "compiler/CParser.h"
#include "compiler/CTemplateTools.h"
#include "compiler/CompilerTools.h"
#include "compiler/objects.h"
#include "compiler/scopes.h"
#include "compiler/templates.h"
#include "compiler/types.h"

static Boolean ctempl_conversion_deduction;
static UInt8 ctempl_explicitargs_nindex;
static int ctempl_explicitargs_num;
static Boolean ctempl_explicitargs_all;

// forward decls
static Boolean CTempl_DeduceTypeTemplDep(TypeTemplDep *type1, UInt32 qual1, Type *type2, UInt32 qual2, TemplArg *argArray, Boolean flag);
static Boolean CTempl_DeduceType1(Type *type1, UInt32 qual1, Type *type2, UInt32 qual2, TemplArg *argArray, Boolean flag);

static void CTemplFunc_SetupTypeDeduce(TypeDeduce *deduce, TemplateFunction *templ, TemplArg *args) {
    memclrw(deduce, sizeof(TypeDeduce));
    if (templ->tfunc->nspace->theclass && (templ->tfunc->nspace->theclass->flags & CLASS_FLAGS_100))
        deduce->tmclass = TEMPL_CLASS(templ->tfunc->nspace->theclass);
    deduce->params = templ->params;
    deduce->args = args;
}

Boolean CTempl_CanDeduceFunc(Object *object, TypeFunc *tfunc, TemplArg *args) {
    DeduceInfo info;
    int i;

    if (CTemplTool_InitDeduceInfo(&info, CTemplTool_GetFuncTempl(object)->params, args, 0)) {
        if (CTempl_DeduceType(object->type, 0, TYPE(tfunc), 0, info.args, 0, 0)) {
            for (i = 0; i < info.maxCount; i++) {
                if (!info.args[i].is_deduced)
                    return 0;
            }
            return 1;
        }
    }

    return 0;
}

static TemplFuncInstance *CTempl_GetCreateFuncInstance(Object *funcobj, TemplArg *args, Object *object2) {
    TemplFuncInstance *inst;
    TemplateFunction *templ;
    Object *instobj;
    TemplParam *param;
    TemplArg *arg;
    TemplArg *last;
    short paramCount;
    short i;
    TypeDeduce deduce;

    templ = CTemplTool_GetFuncTempl(funcobj);

    paramCount = 0;
    param = templ->params;
    while (param) {
        param = param->next;
        paramCount++;
    }

    for (i = 1, arg = args; i < paramCount; i++, arg++)
        arg->next = arg + 1;
    arg->next = NULL;

    for (inst = templ->instances; inst; inst = inst->next) {
        if (CTemplTool_EqualArgs(inst->args, args)) {
            if (object2)
                inst->object = object2;
            return inst;
        }
    }

    inst = galloc(sizeof(TemplFuncInstance));
    memclrw(inst, sizeof(TemplFuncInstance));

    for (i = 0, arg = NULL; i < paramCount; i++) {
        if (arg) {
            last->next = galloc(sizeof(TemplArg));
            last = last->next;
        } else {
            last = galloc(sizeof(TemplArg));
            arg = last;
        }

        *last = *args;
        last->next = NULL;
        args++;

        if (last->pid.type == TPT_NONTYPE) {
            CError_ASSERT(114, last->data.paramdecl.expr);
            last->data.paramdecl.expr = CInline_CopyExpression(last->data.paramdecl.expr, CopyMode1);
        }
    }

    inst->args = arg;
    inst->next = templ->instances;
    templ->instances = inst;

    if (!object2) {
        instobj = CParser_NewFunctionObject(NULL);
        instobj->access = funcobj->access;
        instobj->nspace = funcobj->nspace;
        instobj->sclass = funcobj->sclass;
        instobj->qual = funcobj->qual | Q_80000;
        instobj->name = templ->name;
        instobj->u.func.inst = inst;

        CTemplFunc_SetupTypeDeduce(&deduce, templ, inst->args);
        if (funcobj->nspace->theclass && (funcobj->nspace->theclass->flags & CLASS_FLAGS_800)) {
            deduce.tmclass = TEMPL_CLASS_INST(funcobj->nspace->theclass)->templ;
            deduce.inst = TEMPL_CLASS_INST(funcobj->nspace->theclass);
        }

        instobj->type = CTemplTool_DeduceTypeCopy(&deduce, funcobj->type, &instobj->qual);
        inst->object = instobj;

        if (IS_TYPE_FUNC(instobj->type)) {
            TYPE_FUNC(instobj->type)->flags &= ~FUNC_FLAGS_2;
            if (TYPE_FUNC(instobj->type)->flags & FUNC_FLAGS_1000) {
                FuncArg *funcarg;
                CError_ASSERT(152, TYPE_FUNC(instobj->type)->flags & FUNC_FLAGS_METHOD);
                CError_ASSERT(153, funcarg = TYPE_FUNC(instobj->type)->args);

                if (TYPE_METHOD(instobj->type)->theclass->flags & CLASS_FLAGS_20)
                    CError_ASSERT(156, funcarg = funcarg->next);

                if (funcarg->next)
                    CDecl_CheckCtorIntegrity(funcarg->next, TYPE_METHOD(instobj->type)->theclass);
            }
        }

        if ((instobj->qual & Q_INLINE) && templ->stream.tokens)
            CInline_AddTemplateFunctionAction(instobj, templ, inst);

    } else {
        inst->object = object2;
    }

    return inst;
}

TemplFuncInstance *CTempl_CheckFuncInstance(Object *object1, TypeFunc *tfunc, TemplArg *args, Object *object2) {
    DeduceInfo info;
    int i;

    if (!CTemplTool_InitDeduceInfo(&info, CTemplTool_GetFuncTempl(object1)->params, args, 1))
        return NULL;

    if (!CTempl_DeduceType(object1->type, 0, TYPE(tfunc), 0, info.args, 0, 0))
        return NULL;

    i = 0;
    while (i < info.maxCount) {
        if (!info.args[i++].is_deduced)
            return NULL;
    }

    return CTempl_GetCreateFuncInstance(object1, info.args, object2);
}

TemplFuncInstance *CTempl_DeduceFunc(Object *object1, TypeFunc *tfunc, TemplArg *args, Object *object2, Boolean flag) {
    return CTempl_CheckFuncInstance(object1, tfunc, args, object2);
}

static Boolean CTempl_FuncIsAtLeastAsSpecialized(Object *func1, Object *func2) {
    int i;
    FuncArg *arg1;
    FuncArg *arg2;
    Type *type1;
    Type *type2;
    UInt32 qual1;
    UInt32 qual2;
    DeduceInfo info;

    arg1 = TYPE_FUNC(func2->type)->args;
    if (IS_TYPEFUNC_NONSTATIC_METHOD(TYPE_FUNC(func2->type)))
        arg1 = arg1->next;

    i = 0;
    while (1) {
        if (!arg1)
            break;
        CError_ASSERT(231, arg1->type != &stvoid);
        if (arg1 == &elipsis)
            break;
        if (arg1 == &oldstyle)
            break;
        arg1 = arg1->next;
        i++;
    }

    if (!CTemplTool_InitDeduceInfo(&info, CTemplTool_GetFuncTempl(func2)->params, NULL, 0))
        return 0;

    arg1 = TYPE_FUNC(func1->type)->args;
    if (IS_TYPEFUNC_NONSTATIC_METHOD(TYPE_FUNC(func1->type)))
        arg1 = arg1->next;

    arg2 = TYPE_FUNC(func2->type)->args;
    if (IS_TYPEFUNC_NONSTATIC_METHOD(TYPE_FUNC(func2->type)))
        arg2 = arg2->next;

    while (i > 0) {
        if (!arg1)
            break;
        if (arg1 == &elipsis)
            break;
        if (arg1 == &oldstyle)
            break;

        CError_ASSERT(255, arg2);

        type1 = arg1->type;
        qual1 = arg1->qual & (Q_CONST | Q_VOLATILE);
        qual2 = arg2->qual & (Q_CONST | Q_VOLATILE);
        type2 = arg2->type;

        if (!CTemplTool_IsTemplateArgumentDependentType(type2)) {
            if (IS_TYPE_REFERENCE(type1))
                type1 = TPTR_TARGET(type1);
            type1 = CParser_RemoveTopMostQualifiers(type1, &qual1);

            if (IS_TYPE_REFERENCE(type2))
                type2 = TPTR_TARGET(type2);
            type2 = CParser_RemoveTopMostQualifiers(type2, &qual2);

            if (!is_typesame(type1, type2) || qual1 != qual2)
                return 0;
        } else {
            if (!CTempl_DeduceType(type2, qual2, type1, qual1, info.args, 0, 0))
                return 0;
        }

        arg1 = arg1->next;
        arg2 = arg2->next;
        i--;
    }

    return 1;
}

Boolean CTempl_FuncIsMoreSpecialized(Object *object1, Object *object2) {
    return CTempl_FuncIsAtLeastAsSpecialized(object1, object2) && !CTempl_FuncIsAtLeastAsSpecialized(object2, object1);
}

Object *CTempl_PartialOrdering(Object *object, ObjectList *list, int count) {
    int i;
    int j;
    Object **array;
    ObjectList *scan;
    Object *arrayBuffer[16];

    for (count = 1, scan = list; scan; scan = scan->next) {
        if (IS_TEMPL_FUNC(scan->object->type))
            count++;
    }

    if (count > 16)
        array = lalloc(sizeof(Object *) * count);
    else
        array = arrayBuffer;

    array[0] = object;
    for (i = 1, scan = list; scan; scan = scan->next) {
        if (IS_TEMPL_FUNC(scan->object->type))
            array[i++] = scan->object;
    }

    for (i = 0; i < count; i++) {
        if (array[i]) {
            for (j = 0; j < count; j++) {
                if (array[j] && i != j && CTempl_FuncIsMoreSpecialized(array[i], array[j]))
                    array[j] = NULL;
            }
        }
    }

    object = NULL;

    for (i = 0; i < count; i++) {
        if (array[i]) {
            if (object)
                return NULL;
            object = array[i];
        }
    }

    return object;
}

int CTempl_GetTemplateArgumentExpressionIndex(TemplArg *arg) {
    CError_ASSERT(529, arg->data.paramdecl.expr);

    if (ENODE_IS(arg->data.paramdecl.expr, ETEMPLDEP) && arg->data.paramdecl.expr->data.templdep.subtype == TDE_PARAM)
        return arg->data.paramdecl.expr->data.templdep.u.pid.index;

    return -1;
}

static Type *CTempl_GetSpecifiedType(TemplateFunction *templ, Type *type, UInt32 qual, TemplArg *args, UInt32 *resultQual) {
    TypeDeduce deduce;

    CTemplFunc_SetupTypeDeduce(&deduce, templ, args);
    *resultQual = qual;
    return CTemplTool_DeduceTypeCopy(&deduce, type, resultQual);
}

static Boolean CTempl_DeduceTemplateArgs(TemplArg *args1, TemplArg *args2, TemplArg *argArray) {
    int index;

    while (1) {
        if (!args1)
            return !args2;
        if (!args2)
            return 0;

        if (args1->pid.type != args2->pid.type)
            return 0;

        switch (args1->pid.type) {
            case TPT_TYPE:
                if (!CTempl_DeduceType1(
                    args1->data.typeparam.type, args1->data.typeparam.qual,
                    args2->data.typeparam.type, args2->data.typeparam.qual,
                    argArray, 1
                    ))
                    return 0;
                break;

            case TPT_NONTYPE:
                if (CTemplTool_IsTemplateArgumentDependentExpression(args1->data.paramdecl.expr)) {
                    index = CTempl_GetTemplateArgumentExpressionIndex(args1);
                    if (index < 0)
                        return 1;

                    if (argArray[index].is_deduced) {
                        if (!CTemplTool_EqualExprTypes(args2->data.paramdecl.expr, argArray[index].data.paramdecl.expr))
                            return 0;
                    } else {
                        argArray[index].data.paramdecl.expr = args2->data.paramdecl.expr;
                        argArray[index].pid.type = TPT_NONTYPE;
                        argArray[index].is_deduced = 1;
                    }
                } else {
                    if (!CTemplTool_EqualExprTypes(args2->data.paramdecl.expr, args1->data.paramdecl.expr))
                        return 0;
                }
                break;

            case TPT_TEMPLATE:
                if (!IS_TEMPL_CLASS(args2->data.ttargtype))
                    return 0;

                index = args1->pid.index;
                if (argArray[index].is_deduced) {
                    if (args2->data.ttargtype != argArray[index].data.ttargtype)
                        return 0;
                } else {
                    argArray[index].data.ttargtype = args2->data.ttargtype;
                    argArray[index].pid.type = TPT_TEMPLATE;
                    argArray[index].is_deduced = 1;
                }
                break;

            default:
                CError_FATAL(640);
        }

        args1 = args1->next;
        args2 = args2->next;
    }
}

static Boolean CTempl_DeduceTemplDepTemplate(TemplClass *templ1, TemplArg *args1, TemplClass *templ2, TemplArg *args2, TemplArg *argArray) {
    if (templ1 != templ2)
        return 0;

    return CTempl_DeduceTemplateArgs(args2, args1, argArray);
}

static Boolean CTempl_DeduceTemplateType(TemplClass *templ, TemplArg *args, TemplClassInst *inst, TemplArg *argArray) {
    TemplClassInst *scan;

    for (scan = templ->instances; scan; scan = scan->next) {
        if (scan == inst)
            return CTempl_DeduceTemplateArgs(args, scan->oargs ? scan->oargs : scan->inst_args, argArray);
    }

    return 0;
}

static Boolean CTempl_DeduceTemplateTypeBase(TemplClass *templ, TemplArg *args, TemplClassInst *inst, TemplArg *argArray, Boolean flag) {
    ClassList *base;

    if (CTempl_DeduceTemplateType(templ, args, inst, argArray))
        return 1;

    if (flag) {
        for (base = inst->theclass.bases; base; base = base->next) {
            if (CTempl_DeduceTemplateType(templ, args, TEMPL_CLASS_INST(base->base), argArray)) {
                ctempl_conversion_deduction = 1;
                return 1;
            }
        }

        for (base = inst->theclass.bases; base; base = base->next) {
            if (CTempl_DeduceTemplateTypeBase(templ, args, TEMPL_CLASS_INST(base->base), argArray, 1)) {
                ctempl_conversion_deduction = 1;
                return 1;
            }
        }
    }

    return 0;
}

static Boolean CTempl_DeduceQualTemplate(TypeTemplDep *type1, TemplArg *args1, Type *type2, TemplArg *argArray) {
    int index;

    if (type1->dtype == TEMPLDEP_ARGUMENT && type1->u.pid.type == TPT_TEMPLATE) {
        index = type1->u.pid.index;
        if (IS_TEMPL_CLASS_INST(type2)) {
            if (argArray[index].is_deduced) {
                if (argArray[index].data.ttargtype != TYPE(TEMPL_CLASS_INST(type2)->templ))
                    return 0;
            } else {
                argArray[index].data.ttargtype = TYPE(TEMPL_CLASS_INST(type2)->templ);
                argArray[index].pid.type = TPT_TEMPLATE;
                argArray[index].is_deduced = 1;
            }

            return CTempl_DeduceTemplateArgs(args1, TEMPL_CLASS_INST(type2)->inst_args, argArray);
        }

        if (IS_TYPE_TEMPLATE(type2)) {
            if (TYPE_TEMPLATE(type2)->dtype == TEMPLDEP_TEMPLATE) {
                if (argArray[index].is_deduced) {
                    if (argArray[index].data.ttargtype != TYPE(TYPE_TEMPLATE(type2)->u.templ.templ))
                        return 0;
                } else {
                    argArray[index].data.ttargtype = TYPE(TYPE_TEMPLATE(type2)->u.templ.templ);
                    argArray[index].pid.type = TPT_TEMPLATE;
                    argArray[index].is_deduced = 1;
                }

                return CTempl_DeduceTemplateArgs(args1, TYPE_TEMPLATE(type2)->u.templ.args, argArray);
            }

            if (TYPE_TEMPLATE(type2)->dtype == TEMPLDEP_QUALTEMPL) {
                return
                    CTempl_DeduceTypeTemplDep(type1, 0, TYPE(TYPE_TEMPLATE(type2)->u.qualtempl.type), 0, argArray, 1) &&
                    CTempl_DeduceTemplateArgs(args1, TYPE_TEMPLATE(type2)->u.qualtempl.args, argArray);
            }
        }
    }

    return 0;
}

static Boolean CTempl_DeduceTypeTemplDep(TypeTemplDep *type1, UInt32 qual1, Type *type2, UInt32 qual2, TemplArg *argArray, Boolean flag) {
    Type *tmptype;
    UInt32 tmpqual;
    short index;
    Boolean f;
    UInt32 modqual;

    switch (type1->dtype) {
        case TEMPLDEP_ARGUMENT:
            index = type1->u.pid.index;
            tmptype = type2;
            if (type1->u.pid.type == TPT_TEMPLATE) {
                if (argArray[index].is_deduced) {
                    if (!is_typesame(tmptype, argArray[index].data.ttargtype))
                        return 0;
                } else {
                    argArray[index].data.ttargtype = type2;
                    argArray[index].pid.type = TPT_TEMPLATE;
                    argArray[index].is_deduced = 1;
                }
                return 1;
            }

            switch (type2->type) {
                case TYPEPOINTER:
                    tmpqual = qual2;
                    f = 0;
                    qual2 = TPTR_QUAL(type2);
                    modqual = qual2;

                    if ((modqual & Q_CONST) && (qual1 & Q_CONST)) {
                        modqual &= ~Q_CONST;
                        f = 1;
                    }
                    if ((modqual & Q_VOLATILE) && (qual1 & Q_VOLATILE)) {
                        modqual &= ~Q_VOLATILE;
                        f = 1;
                    }

                    if (f) {
                        tmptype = galloc(sizeof(TypePointer));
                        *TYPE_POINTER(tmptype) = *TYPE_POINTER(type2);
                        TPTR_QUAL(tmptype) = modqual;
                    }

                    if (flag && (qual2 | modqual) != (qual1 | modqual))
                        return 0;

                    break;

                case TYPEMEMBERPOINTER:
                    tmpqual = qual2;
                    f = 0;
                    qual2 = TYPE_MEMBER_POINTER(type2)->qual;
                    modqual = qual2;

                    if ((modqual & Q_CONST) && (qual1 & Q_CONST)) {
                        modqual &= ~Q_CONST;
                        f = 1;
                    }
                    if ((modqual & Q_VOLATILE) && (qual1 & Q_VOLATILE)) {
                        modqual &= ~Q_VOLATILE;
                        f = 1;
                    }

                    if (f) {
                        tmptype = galloc(sizeof(TypeMemberPointer));
                        *TYPE_MEMBER_POINTER(tmptype) = *TYPE_MEMBER_POINTER(type2);
                        TYPE_MEMBER_POINTER(tmptype)->qual = modqual;
                    }

                    if (flag && (qual2 | modqual) != (qual1 | modqual))
                        return 0;

                    break;

                default:
                    tmpqual = 0;
                    if ((qual2 & Q_CONST) && !(qual1 & Q_CONST))
                        tmpqual |= Q_CONST;
                    if ((qual2 & Q_VOLATILE) && !(qual1 & Q_VOLATILE))
                        tmpqual |= Q_VOLATILE;

                    if (flag && (qual2 | tmpqual) != (qual1 | tmpqual))
                        return 0;
            }

            if (argArray[index].is_deduced) {
                if (!is_typesame(tmptype, argArray[index].data.typeparam.type) || tmpqual != argArray[index].data.typeparam.qual)
                    return 0;
            } else {
                argArray[index].data.typeparam.type = tmptype;
                argArray[index].data.typeparam.qual = tmpqual;
                argArray[index].pid.type = TPT_TYPE;
                argArray[index].is_deduced = 1;
            }
            return 1;

        case TEMPLDEP_QUALNAME:
            return 1;

        case TEMPLDEP_TEMPLATE:
            if (IS_TYPE_CLASS(type2))
                return CTempl_DeduceTemplateTypeBase(
                    type1->u.templ.templ, type1->u.templ.args,
                    TEMPL_CLASS_INST(type2), argArray, 0);

            if (IS_TYPE_TEMPLATE(type2) && TYPE_TEMPLATE(type2)->dtype == TEMPLDEP_TEMPLATE)
                return CTempl_DeduceTemplDepTemplate(
                    TYPE_TEMPLATE(type2)->u.templ.templ, TYPE_TEMPLATE(type2)->u.templ.args,
                    type1->u.templ.templ, type1->u.templ.args,
                    argArray
                );

            return 0;

        case TEMPLDEP_ARRAY:
            if (IS_TYPE_ARRAY(type2)) {
                SInt32 elements;

                if (!CTempl_DeduceType1(type1->u.array.type, qual1, TPTR_TARGET(type2), qual2, argArray, flag))
                    return 0;

                if (ENODE_IS(type1->u.array.index, EINTCONST)) {
                    CError_ASSERT(961, TPTR_TARGET(type2)->size);
                    return (type2->size / TPTR_TARGET(type2)->size) == CInt64_GetULong(&type1->u.array.index->data.intval);
                }

                if (!ENODE_IS(type1->u.array.index, ETEMPLDEP) || type1->u.array.index->data.templdep.subtype != TDE_PARAM)
                    return 1;

                CError_ASSERT(970, TPTR_TARGET(type2)->size);

                elements = type2->size / TPTR_TARGET(type2)->size;
                index = type1->u.array.index->data.templdep.u.pid.index;
                if (argArray[index].is_deduced) {
                    CError_ASSERT(976, ENODE_IS(argArray[index].data.paramdecl.expr, EINTCONST));
                    return elements == CInt64_GetULong(&argArray[index].data.paramdecl.expr->data.intval);
                } else {
                    argArray[index].data.paramdecl.expr = intconstnode(CABI_GetPtrDiffTType(), elements);
                    argArray[index].pid.type = TPT_NONTYPE;
                    argArray[index].is_deduced = 1;
                    return 1;
                }
            } else if (IS_TYPE_TEMPLATE(type2) && TYPE_TEMPLATE(type2)->dtype == TEMPLDEP_ARRAY) {
                if (!CTempl_DeduceType1(type1->u.array.type, qual1, TYPE_TEMPLATE(type2)->u.array.type, qual2, argArray, flag))
                    return 0;

                if (ENODE_IS(type1->u.array.index, EINTCONST)) {
                    return ENODE_IS(TYPE_TEMPLATE(type2)->u.array.index, EINTCONST) &&
                           CInt64_Equal(type1->u.array.index->data.intval, TYPE_TEMPLATE(type2)->u.array.index->data.intval);
                }

                if (!ENODE_IS(type1->u.array.index, ETEMPLDEP) || type1->u.array.index->data.templdep.subtype != TDE_PARAM)
                    return 1;

                index = type1->u.array.index->data.templdep.u.pid.index;
                if (argArray[index].is_deduced) {
                    return CTemplTool_EqualExprTypes(TYPE_TEMPLATE(type2)->u.array.index, argArray[index].data.paramdecl.expr);
                } else {
                    argArray[index].data.paramdecl.expr = TYPE_TEMPLATE(type2)->u.array.index;
                    argArray[index].pid.type = TPT_NONTYPE;
                    argArray[index].is_deduced = 1;
                    return 1;
                }
            }

            return 0;

        case TEMPLDEP_QUALTEMPL:
            return CTempl_DeduceQualTemplate(type1->u.qualtempl.type, type1->u.qualtempl.args, type2, argArray);

        case TEMPLDEP_BITFIELD:
        default:
            CError_FATAL(1022);
            return 1;
    }
}

static Boolean CTempl_DeduceFuncType(TypeFunc *tfunc1, TypeFunc *tfunc2, TemplArg *argArray) {
    FuncArg *arg1;
    FuncArg *arg2;
    Type *type2;
    Type *type1;
    UInt32 qual2;
    UInt32 qual1;

    arg1 = tfunc1->args;
    arg2 = tfunc2->args;

    if (IS_TYPEFUNC_NONSTATIC_METHOD(tfunc1) && !IS_TYPEFUNC_METHOD(tfunc2)) {
        CError_ASSERT(1045, arg1);
        arg1 = arg1->next;
    }

    while (1) {
        if (arg1 == NULL)
            return !arg2;
        if (arg1 == &oldstyle)
            return arg2 == &oldstyle;
        if (arg1 == &elipsis)
            return arg2 == &elipsis;

        if (arg2 == NULL || arg2 == &oldstyle || arg2 == &elipsis)
            return 0;

        qual2 = arg2->qual;
        type2 = CParser_RemoveTopMostQualifiers(arg2->type, &qual2);

        qual1 = arg1->qual;
        type1 = CParser_RemoveTopMostQualifiers(arg1->type, &qual1);

        if (!CTempl_DeduceType1(type1, qual1, type2, qual2, argArray, 1))
            return 0;

        arg1 = arg1->next;
        arg2 = arg2->next;
    }
}

static Boolean CTempl_DeduceType1(Type *type1, UInt32 qual1, Type *type2, UInt32 qual2, TemplArg *argArray, Boolean flag) {
    while (1) {
        switch (type1->type) {
            case TYPETEMPLATE:
                return CTempl_DeduceTypeTemplDep(TYPE_TEMPLATE(type1), qual1, type2, qual2, argArray, flag);

            case TYPEVOID:
            case TYPEINT:
            case TYPEFLOAT:
            case TYPEENUM:
            case TYPESTRUCT:
            case TYPECLASS:
                return type1 == type2;

            case TYPEMEMBERPOINTER:
                if (type1->type != type2->type || TYPE_MEMBER_POINTER(type1)->qual != TYPE_MEMBER_POINTER(type2)->qual)
                    return 0;
                if (!CTempl_DeduceType1(TYPE_MEMBER_POINTER(type1)->ty1, qual1, TYPE_MEMBER_POINTER(type2)->ty1, qual2, argArray, flag))
                    return 0;
                type1 = TYPE_MEMBER_POINTER(type1)->ty2;
                type2 = TYPE_MEMBER_POINTER(type2)->ty2;
                continue;

            case TYPEARRAY:
                if (type2->type != TYPEARRAY)
                    return 0;
                type1 = TPTR_TARGET(type1);
                type2 = TPTR_TARGET(type2);
                continue;

            case TYPEPOINTER:
                if (type2->type != TYPEPOINTER || TPTR_QUAL(type1) != TPTR_QUAL(type2))
                    return 0;
                type1 = TPTR_TARGET(type1);
                type2 = TPTR_TARGET(type2);
                continue;

            case TYPEFUNC:
                if (type1->type != type2->type)
                    return 0;

                if (CTempl_DeduceType1(TYPE_FUNC(type1)->functype, TYPE_FUNC(type1)->qual, TYPE_FUNC(type2)->functype, TYPE_FUNC(type2)->qual, argArray, flag))
                    return CTempl_DeduceFuncType(TYPE_FUNC(type1), TYPE_FUNC(type2), argArray);

                return 0;

            default:
                CError_FATAL(1124);
        }
    }
}

static Boolean CTempl_DeduceType2(Type *type1, UInt32 qual1, Type *type2, UInt32 qual2, TemplArg *argArray) {
    while (1) {
        switch (type1->type) {
            case TYPEPOINTER:
                if (type2->type != TYPEPOINTER)
                    return 0;
                if (!CParser_IsSameOrMoreCVQualified(TPTR_QUAL(type2), TPTR_QUAL(type1)))
                    return 0;
                type1 = TPTR_TARGET(type1);
                type2 = TPTR_TARGET(type2);
                continue;

            case TYPEMEMBERPOINTER:
                if (type2->type != TYPEMEMBERPOINTER)
                    return 0;
                if (!CParser_IsSameOrMoreCVQualified(TYPE_MEMBER_POINTER(type2)->qual, TYPE_MEMBER_POINTER(type1)->qual))
                    return 0;
                if (!CTempl_DeduceType2(TYPE_MEMBER_POINTER(type1)->ty1, qual1, TYPE_MEMBER_POINTER(type2)->ty1, qual2, argArray))
                    return 0;
                type1 = TYPE_MEMBER_POINTER(type1)->ty2;
                type2 = TYPE_MEMBER_POINTER(type2)->ty2;
                continue;

            default:
                if (CParser_IsSameOrMoreCVQualified(qual2, qual1))
                    return CTempl_DeduceType1(type1, qual2, type2, qual2, argArray, 0);
                return 0;
        }
    }
}

static Boolean CTempl_DeduceType3(Type *type1, UInt32 qual1, Type *type2, UInt32 qual2, TemplArg *argArray) {
    Boolean flag = 0;

    while (1) {
        switch (type1->type) {
            case TYPEPOINTER:
                flag = 1;
                if (type2->type != TYPEPOINTER)
                    return 0;
                if (!CParser_IsSameOrMoreCVQualified(TPTR_QUAL(type2), TPTR_QUAL(type1)))
                    return 0;
                type1 = TPTR_TARGET(type1);
                type2 = TPTR_TARGET(type2);
                continue;

            case TYPEMEMBERPOINTER:
                flag = 1;
                if (type2->type != TYPEMEMBERPOINTER)
                    return 0;
                if (!CParser_IsSameOrMoreCVQualified(TYPE_MEMBER_POINTER(type2)->qual, TYPE_MEMBER_POINTER(type1)->qual))
                    return 0;
                if (!CTempl_DeduceType2(TYPE_MEMBER_POINTER(type1)->ty1, qual1, TYPE_MEMBER_POINTER(type2)->ty1, qual2, argArray))
                    return 0;
                type1 = TYPE_MEMBER_POINTER(type1)->ty2;
                type2 = TYPE_MEMBER_POINTER(type2)->ty2;
                continue;

            default:
                if (!flag)
                    return 0;
                if (CParser_IsSameOrMoreCVQualified(qual2, qual1))
                    return CTempl_DeduceType1(type1, qual2, type2, qual2, argArray, 0);
                return 0;
        }
    }
}

static Boolean CTempl_DeduceType4(Type *type1, UInt32 qual1, Type *type2, UInt32 qual2, TemplArg *argArray) {
    if (IS_TYPE_POINTER_ONLY(type1)) {
        if (!IS_TYPE_POINTER_ONLY(type2))
            return 0;

        if (!CParser_IsSameOrMoreCVQualified(TPTR_QUAL(type1), TPTR_QUAL(type2)))
            return 0;

        type1 = TPTR_TARGET(type1);
        type2 = TPTR_TARGET(type2);
    }

    if (IS_TYPE_TEMPLATE(type1) && TYPE_TEMPLATE(type1)->dtype == TEMPLDEP_TEMPLATE && IS_TYPE_CLASS(type2)) {
        if (CParser_IsSameOrMoreCVQualified(qual1, qual2))
            return CTempl_DeduceTemplateTypeBase(
                TYPE_TEMPLATE(type1)->u.templ.templ,
                TYPE_TEMPLATE(type1)->u.templ.args,
                TEMPL_CLASS_INST(type2),
                argArray,
                1);
        else
            return 0;
    }

    return 0;
}

Boolean CTempl_DeduceType(Type *type1, UInt32 qual1, Type *type2, UInt32 qual2, TemplArg *argArray, Boolean flag1, Boolean flag2) {
    Boolean flag31;
    Boolean flag8;

    flag31 = 0;
    flag8 = 1;

    if (flag1 || flag2) {
        if (IS_TYPE_REFERENCE(type1)) {
            type1 = TPTR_TARGET(type1);
            flag31 = 1;
        } else {
            switch (type2->type) {
                case TYPEFUNC:
                    type2 = CDecl_NewPointerType(type2);
                    break;
                case TYPEARRAY:
                    type2 = CDecl_NewPointerType(TPTR_TARGET(type2));
                    break;
            }

            type1 = CParser_RemoveTopMostQualifiers(type1, &qual1);
            type2 = CParser_RemoveTopMostQualifiers(type2, &qual2);
        }
        flag8 = 0;
    }

    if (CTempl_DeduceType1(type1, qual1, type2, qual2, argArray, flag8))
        return 1;

    if (flag1 || flag2) {
        if (flag31 && CTempl_DeduceType2(type1, qual1, type2, qual2, argArray))
            return 1;
        if (CTempl_DeduceType3(type1, qual1, type2, qual2, argArray))
            return 1;
        if (flag1 && CTempl_DeduceType4(type1, qual1, type2, qual2, argArray))
            return 1;
    }

    return 0;
}

static Boolean CTempl_TypeNeedsDeduction(Type *type) {
    FuncArg *arg;
    Boolean result;

    while (1) {
        switch (type->type) {
            case TYPETEMPLATE:
                switch (TYPE_TEMPLATE(type)->dtype) {
                    case TEMPLDEP_ARGUMENT:
                        if (
                            TYPE_TEMPLATE(type)->u.pid.index >= ctempl_explicitargs_num ||
                            TYPE_TEMPLATE(type)->u.pid.nindex != ctempl_explicitargs_nindex
                        )
                            ctempl_explicitargs_all = 0;
                        return 1;

                    case TEMPLDEP_QUALNAME:
                        CTempl_TypeNeedsDeduction(TYPE(TYPE_TEMPLATE(type)->u.qual.type));
                        return 1;

                    case TEMPLDEP_TEMPLATE:
                        ctempl_explicitargs_all = 0;
                        return 1;

                    case TEMPLDEP_ARRAY:
                        CTempl_TypeNeedsDeduction(TYPE_TEMPLATE(type)->u.array.type);
                        ctempl_explicitargs_all = 0;
                        return 1;

                    case TEMPLDEP_QUALTEMPL:
                        CTempl_TypeNeedsDeduction(TYPE(TYPE_TEMPLATE(type)->u.qualtempl.type));
                        ctempl_explicitargs_all = 0;
                        return 1;

                    case TEMPLDEP_BITFIELD:
                    default:
                        CError_FATAL(1357);
                }

            case TYPEVOID:
            case TYPEINT:
            case TYPEFLOAT:
            case TYPEENUM:
            case TYPESTRUCT:
            case TYPECLASS:
                return 0;

            case TYPEMEMBERPOINTER:
                result = 0;
                if (CTempl_TypeNeedsDeduction(TYPE_MEMBER_POINTER(type)->ty1))
                    result = 1;
                if (CTempl_TypeNeedsDeduction(TYPE_MEMBER_POINTER(type)->ty2))
                    result = 1;
                return result;

            case TYPEPOINTER:
            case TYPEARRAY:
                type = TPTR_TARGET(type);
                continue;

            case TYPEFUNC:
                result = 0;
                for (arg = TYPE_FUNC(type)->args; arg && arg != &elipsis; arg = arg->next) {
                    if (CTempl_TypeNeedsDeduction(arg->type))
                        result = 1;
                }

                if (CTempl_TypeNeedsDeduction(TYPE_FUNC(type)->functype))
                    result = 1;
                return result;

            default:
                CError_FATAL(1389);
        }
    }
}

static Boolean CTempl_MatchTemplFunc(Object *object, DeduceInfo *info, FuncArg *args, ENodeList *exprs, Match13 *match13ptr) {
    Match13 match13;
    int i;

    memclrw(&match13, sizeof(match13));

    while (1) {
        if (!args || args->type == &stvoid) {
            if (!exprs)
                break;
            return 0;
        }

        if (args == &elipsis)
            break;
        if (args == &oldstyle)
            break;

        if (!exprs) {
            if (args->dexpr)
                break;
            return 0;
        }

        ctempl_explicitargs_nindex = info->x12C;
        ctempl_explicitargs_num = info->count;
        ctempl_explicitargs_all = 1;

        if (CTempl_TypeNeedsDeduction(args->type)) {
            if (!ctempl_explicitargs_all) {
                UInt32 cv2;
                UInt32 cv1;
                Type *type2;
                Type *type1;
                UInt32 qual2;
                UInt32 qual1;

                type1 = args->type;
                qual1 = args->qual & (Q_CONST | Q_VOLATILE);

                type2 = exprs->node->rtype;
                qual2 = ENODE_QUALS(exprs->node);

                if (IS_TYPE_REFERENCE(type1)) {
                    type1 = TPTR_TARGET(type1);
                    cv1 = CParser_GetCVTypeQualifiers(type1, qual1);
                    cv2 = CParser_GetCVTypeQualifiers(type2, qual2);
                    if (
                        (!(cv1 & Q_CONST) && (cv2 & Q_CONST)) ||
                        (!(cv1 & Q_VOLATILE) && (cv2 & Q_VOLATILE))
                        )
                        return 0;

                    if (!(cv1 & Q_CONST) && !CExpr_IsLValue(exprs->node))
                        return 0;
                }

                type1 = CParser_RemoveTopMostQualifiers(type1, &qual1);
                type2 = CParser_RemoveTopMostQualifiers(type2, &qual2);

                if (ENODE_IS(exprs->node, EOBJREF) && IS_TEMPL_FUNC(exprs->node->data.objref->type))
                    return 0;

                if (ENODE_IS(exprs->node, EOBJLIST)) {
                    NameSpaceObjectList *list;

                    for (list = exprs->node->data.objlist.list; list; list = list->next) {
                        if (list->object->otype == OT_OBJECT && IS_TEMPL_FUNC(OBJECT(list->object)->type))
                            break;
                    }

                    if (list)
                        return 0;

                    if (IS_TYPE_FUNC(type2))
                        type2 = CDecl_NewPointerType(type2);
                }

                ctempl_conversion_deduction = 0;
                if (!CTempl_DeduceType(type1, qual1, type2, qual2, info->args, 1, 0))
                    return 0;

                if (ctempl_conversion_deduction)
                    match13.anotherm5.x4++;
                else
                    match13.anotherm5.x0++;

                if (IS_TYPE_POINTER_ONLY(args->type))
                    CExpr_MatchCV(type2, qual2, args->type, args->qual, &match13);

            } else {
                Type *type;
                UInt32 qual;

                type = CTempl_GetSpecifiedType(CTemplTool_GetFuncTempl(object), args->type, args->qual, info->args, &qual);
                if (type && !CExpr_MatchAssign(type, qual, exprs->node, &match13))
                    return 0;
            }
        } else {
            if (copts.old_argmatch && !CExpr_MatchAssign(args->type, args->qual, exprs->node, &match13))
                return 0;
        }

        exprs = exprs->next;
        args = args->next;
    }

    for (i = 0; i < info->maxCount; i++) {
        if (!info->args[i].is_deduced)
            return 0;
        info->args[i].next = &info->args[i + 1];
    }
    info->args[info->maxCount].next = NULL;

    return CExpr_MatchCompare(object, match13ptr, &match13);
}

void CTempl_FuncMatch(NameSpaceObjectList *list, TemplArg *args, ENodeList *argexprs, Match13 *match13ptr, ENode *expr) {
    Object *obj;
    Object *success;
    Object *object1;
    FuncMatchArgs funcMatchArgs;
    DeduceInfo info;
    DeduceInfo info2;

    object1 = match13ptr->obj;
    success = NULL;
    while (list) {
        obj = OBJECT(list->object);
        if (
            obj->otype == OT_OBJECT &&
            IS_TEMPL_FUNC(obj->type) &&
            CExpr_GetFuncMatchArgs(obj, argexprs, expr, &funcMatchArgs) &&
            CTemplTool_InitDeduceInfo(&info, CTemplTool_GetFuncTempl(obj)->params, args, 0) &&
            CTempl_MatchTemplFunc(obj, &info, funcMatchArgs.args, funcMatchArgs.exprs, match13ptr)
            )
        {
            info2 = info;
            if (info.args == info.argBuffer)
                info2.args = info2.argBuffer;
            success = obj;
        }
        list = list->next;
    }

    if (success) {
        if (match13ptr->list) {
            ENodeList *argexpr = argexprs;
            int argexprcount = 0;
            while (argexpr) {
                argexpr = argexpr->next;
                argexprcount++;
            }

            obj = CTempl_PartialOrdering(match13ptr->obj, match13ptr->list, argexprcount);
            if (!obj) {
                CError_OverloadedFunctionError(match13ptr->obj, match13ptr->list);
                match13ptr->list = NULL;
                if (object1)
                    match13ptr->obj = object1;
                else
                    match13ptr->obj = CTempl_GetCreateFuncInstance(success, info2.args, NULL)->object;
            } else {
                NameSpaceObjectList mylist;
                mylist.next = NULL;
                mylist.object = OBJ_BASE(obj);
                memclrw(match13ptr, sizeof(Match13));
                CTempl_FuncMatch(&mylist, args, argexprs, match13ptr, expr);
            }
        } else {
            match13ptr->obj = CTempl_GetCreateFuncInstance(success, info2.args, NULL)->object;
        }
    } else {
        match13ptr->obj = object1;
    }
}

static Boolean CExpr_DeduceFromObjList(FuncArg *arg, NameSpaceObjectList *list, DeduceInfo *info) {
    TemplArg *savebuf;
    NameSpaceObjectList *scan;
    SInt32 size;

    for (scan = list; scan; scan = scan->next) {
        if (scan->object->otype == OT_OBJECT && IS_TEMPL_FUNC(OBJECT(scan->object)->type))
            return 0;
    }

    size = sizeof(TemplArg) * info->maxCount;
    savebuf = lalloc(size);

    for (scan = list; scan; scan = scan->next) {
        if (scan->object->otype == OT_OBJECT && IS_TYPE_FUNC(OBJECT(scan->object)->type)) {
            Object *obj;

            memcpy(savebuf, info->args, size);

            obj = OBJECT(scan->object);
            if (CTempl_DeduceType(
                arg->type, arg->qual & (Q_CONST | Q_VOLATILE),
                obj->type, obj->qual,
                savebuf, 1, 0
                ))
            {
                memcpy(info->args, savebuf, size);
                return 1;
            }
        }
    }

    return 0;
}

Object *CTempl_DeduceFromFunctionCall(Object *funcobj, TemplArg *templargs, ENodeList *argexprs) {
    DeduceInfo info;
    FuncArg *arg;
    int i;

    CError_ASSERT(1655, IS_TEMPL_FUNC(funcobj->type));

    if (CTemplTool_InitDeduceInfo(&info, CTemplTool_GetFuncTempl(funcobj)->params, templargs, 0)) {
        arg = TYPE_FUNC(funcobj->type)->args;
        if (IS_TYPEFUNC_NONSTATIC_METHOD(TYPE_FUNC(funcobj->type))) {
            CError_ASSERT(1664, arg);
            arg = arg->next;
        }

        while (1) {
            if (!arg || arg->type == &stvoid) {
                if (argexprs)
                    return NULL;
                break;
            }

            if (arg == &elipsis)
                break;
            if (arg == &oldstyle)
                break;

            if (!argexprs) {
                if (arg->dexpr)
                    break;
                return NULL;
            }

            ctempl_explicitargs_nindex = info.x12C;
            ctempl_explicitargs_num = info.count;
            ctempl_explicitargs_all = 1;

            if (CTempl_TypeNeedsDeduction(arg->type) && !ctempl_explicitargs_all) {
                ENode *node = argexprs->node;

                if (ENODE_IS(node, EOBJREF) && IS_TEMPL_FUNC(node->data.objref->type))
                    return NULL;

                if (ENODE_IS(node, EOBJLIST)) {
                    if (!CExpr_DeduceFromObjList(arg, node->data.objlist.list, &info))
                        return NULL;
                } else {
                    if (!CTempl_DeduceType(
                        arg->type, arg->qual & (Q_CONST | Q_VOLATILE),
                        node->rtype, ENODE_QUALS(node),
                        info.args, 1, 0))
                        return NULL;
                }
            }

            argexprs = argexprs->next;
            arg = arg->next;
        }

        for (i = 0; i < info.maxCount; i++) {
            if (!info.args[i].is_deduced)
                return 0;
            info.args[i].next = &info.args[i + 1];
        }
        info.args[info.maxCount].next = NULL;

        return CTempl_GetCreateFuncInstance(funcobj, info.args, NULL)->object;
    } else {
        return NULL;
    }
}

Object *CTempl_DeduceFromConversion(Object *funcobj, Type *type, UInt32 qual) {
    DeduceInfo info;
    int i;

    CError_ASSERT(1745, IS_TEMPL_FUNC(funcobj->type));

    if (!CTemplTool_InitDeduceInfo(&info, CTemplTool_GetFuncTempl(funcobj)->params, NULL, 0))
        return NULL;

    ctempl_explicitargs_nindex = info.x12C;
    ctempl_explicitargs_num = info.count;
    ctempl_explicitargs_all = 1;

    if (!CTempl_TypeNeedsDeduction(TYPE_FUNC(funcobj->type)->functype))
        return NULL;

    if (!CTempl_DeduceType(TYPE_FUNC(funcobj->type)->functype, TYPE_FUNC(funcobj->type)->qual, type, qual, info.args, 0, 1))
        return NULL;

    for (i = 0; i < info.maxCount; i++) {
        if (!info.args[i].is_deduced)
            return 0;
        info.args[i].next = &info.args[i + 1];
    }
    info.args[info.maxCount].next = NULL;

    return CTempl_GetCreateFuncInstance(funcobj, info.args, NULL)->object;
}

static int CTemplFunc_TemplateNestLevel(NameSpace *nspace) {
    int level = 0;

    while (nspace) {
        if (nspace->theclass && (nspace->theclass->flags & CLASS_FLAGS_900))
            level++;
        nspace = nspace->parent;
    }

    return level;
}

static Boolean CTemplFunc_SameFuncType(TypeFunc *a, TypeFunc *b) {
    FuncArg *arg1;
    FuncArg *arg2;

    CError_ASSERT(1800, IS_TYPE_FUNC(a) && IS_TYPE_FUNC(b));

    if (!is_typesame(a->functype, b->functype))
        return 0;

    if (a->qual != b->qual)
        return 0;

    if ((a->flags & (FUNC_FLAGS_PASCAL | FUNC_FLAGS_F0000000)) != (b->flags & (FUNC_FLAGS_PASCAL | FUNC_FLAGS_F0000000)))
        return 0;

    arg1 = a->args;
    if ((a->flags & FUNC_FLAGS_METHOD) && !TYPE_METHOD(a)->x26) {
        CError_ASSERT(1808, arg1);
        arg1 = arg1->next;
    }

    arg2 = b->args;
    if ((b->flags & FUNC_FLAGS_METHOD) && !TYPE_METHOD(b)->x26) {
        CError_ASSERT(1814, arg2);
        arg2 = arg2->next;
    }

    return is_arglistsame(arg1, arg2);
}

Object *CTempl_TemplateFunctionCheck(DeclInfo *di, NameSpaceObjectList *nsol) {
    TemplArg *arg;
    TemplFuncInstance *inst;
    Object *object;

    for (arg = di->expltargs; arg; arg = arg->next) {
        switch (arg->pid.type) {
            case TPT_TYPE:
                if (CTemplTool_IsTemplateArgumentDependentType(arg->data.typeparam.type))
                    break;
                continue;
            case TPT_NONTYPE:
                if (CTemplTool_IsTemplateArgumentDependentExpression(arg->data.paramdecl.expr))
                    break;
                continue;
            default:
                CError_FATAL(1844);
        }

        break;
    }

    if (arg) {
        while (nsol) {
            object = OBJECT(nsol->object);
            if (
                object->otype == OT_OBJECT &&
                IS_TEMPL_FUNC(object->type) &&
                CTemplTool_IsSameTemplate(CTemplTool_GetFuncTempl(object)->params, di->expltargs) &&
                CTemplFunc_SameFuncType(TYPE_FUNC(OBJECT(nsol->object)->type), TYPE_FUNC(di->thetype))
                )
                return OBJECT(nsol->object);

            nsol = nsol->next;
        }
    } else {
        while (nsol) {
            object = OBJECT(nsol->object);
            if (
                object->otype == OT_OBJECT &&
                IS_TEMPL_FUNC(object->type) &&
                (inst = CTempl_DeduceFunc(object, TYPE_FUNC(di->thetype), di->expltargs, NULL, 1))
                )
            {
                if (di->x3C) {
                    if (!(di->qual & Q_INLINE)) {
                        if (!inst->is_specialized)
                            inst->object->qual &= ~Q_INLINE;
                    } else {
                        inst->object->qual |= Q_INLINE;
                    }

                    if (!inst->is_specialized && inst->is_instantiated)
                        CError_Error(CErrorStr335);

                    if (di->x3C != (CTemplFunc_TemplateNestLevel(inst->object->nspace) + 1))
                        CError_Warning(CErrorStr335);

                    inst->is_specialized = 1;
                    di->x3C = 0;
                }

                CTemplTool_MergeArgNames(TYPE_FUNC(di->thetype), TYPE_FUNC(inst->object->type));
                di->x38 = CTemplTool_GetFuncTempl(OBJECT(nsol->object));
                return inst->object;
            }
            nsol = nsol->next;
        }
    }

    CError_ResetErrorSkip();
    CError_Error(CErrorStr335);
    di->x3C = 0;
    return NULL;
}