/* * Copyright 2008 Jacek Caban for CodeWeavers * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #include "config.h" #include "wine/port.h" #include #include #include "jscript.h" #include "wine/debug.h" WINE_DEFAULT_DEBUG_CHANNEL(jscript); typedef struct { jsdisp_t dispex; double value; } NumberInstance; static const WCHAR toStringW[] = {'t','o','S','t','r','i','n','g',0}; static const WCHAR toLocaleStringW[] = {'t','o','L','o','c','a','l','e','S','t','r','i','n','g',0}; static const WCHAR toFixedW[] = {'t','o','F','i','x','e','d',0}; static const WCHAR toExponentialW[] = {'t','o','E','x','p','o','n','e','n','t','i','a','l',0}; static const WCHAR toPrecisionW[] = {'t','o','P','r','e','c','i','s','i','o','n',0}; static const WCHAR valueOfW[] = {'v','a','l','u','e','O','f',0}; #define NUMBER_TOSTRING_BUF_SIZE 64 #define NUMBER_DTOA_SIZE 18 static inline NumberInstance *number_from_jsdisp(jsdisp_t *jsdisp) { return CONTAINING_RECORD(jsdisp, NumberInstance, dispex); } static inline NumberInstance *number_from_vdisp(vdisp_t *vdisp) { return number_from_jsdisp(vdisp->u.jsdisp); } static inline NumberInstance *number_this(vdisp_t *jsthis) { return is_vclass(jsthis, JSCLASS_NUMBER) ? number_from_vdisp(jsthis) : NULL; } static inline void number_to_str(double d, WCHAR *buf, int size, int *dec_point) { ULONGLONG l; int i; /* TODO: this function should print doubles with bigger precision */ assert(size>=2 && size<=NUMBER_DTOA_SIZE && d>=0); if(d == 0) *dec_point = 0; else *dec_point = floor(log10(d)); l = d*pow(10, size-*dec_point-1); if(l%10 >= 5) l = l/10+1; else l /= 10; buf[size-1] = 0; for(i=size-2; i>=0; i--) { buf[i] = '0'+l%10; l /= 10; } /* log10 was wrong by 1 or rounding changed number of digits */ if(l) { (*dec_point)++; memmove(buf+1, buf, size-2); buf[0] = '0'+l; }else if(buf[0]=='0' && buf[1]>='1' && buf[1]<='9') { (*dec_point)--; memmove(buf, buf+1, size-2); buf[size-2] = '0'; } } static inline jsstr_t *number_to_fixed(double val, int prec) { WCHAR buf[NUMBER_DTOA_SIZE]; int dec_point, size, buf_size, buf_pos; BOOL neg = FALSE; jsstr_t *ret; WCHAR *str; TRACE("%lf %d\n", val, prec); if(val < 0) { neg = TRUE; val = -val; } if(val >= 1) buf_size = log10(val)+prec+2; else buf_size = prec ? prec+1 : 2; if(buf_size > NUMBER_DTOA_SIZE) buf_size = NUMBER_DTOA_SIZE; number_to_str(val, buf, buf_size, &dec_point); dec_point++; size = 0; if(neg) size++; if(dec_point > 0) size += dec_point; else size++; if(prec) size += prec+1; str = jsstr_alloc_buf(size, &ret); if(!ret) return NULL; size = buf_pos = 0; if(neg) str[size++] = '-'; if(dec_point > 0) { for(;buf_pos0; dec_point--) str[size++] = '0'; if(prec) { str[size++] = '.'; for(; dec_point<0 && prec; dec_point++, prec--) str[size++] = '0'; for(; buf_posNUMBER_DTOA_SIZE) buf_size = NUMBER_DTOA_SIZE; number_to_str(val, buf, buf_size, &dec_point); buf_size--; if(prec == -1) for(; buf_size>1 && buf[buf_size-1]=='0'; buf_size--) buf[buf_size-1] = 0; size = 10; while(dec_point>=size || dec_point<=-size) { size *= 10; exp_size++; } if(buf_size == 1) size = buf_size+2+exp_size; /* 2 = strlen(e+) */ else if(prec == -1) size = buf_size+3+exp_size; /* 3 = strlen(.e+) */ else size = prec+4+exp_size; /* 4 = strlen(0.e+) */ if(neg) size++; str = jsstr_alloc_buf(size, &ret); if(!ret) return NULL; size = 0; pbuf = buf; if(neg) str[size++] = '-'; str[size++] = *pbuf++; if(buf_size != 1) { str[size++] = '.'; while(*pbuf) str[size++] = *pbuf++; for(; prec>buf_size-1; prec--) str[size++] = '0'; } str[size++] = 'e'; if(dec_point >= 0) { str[size++] = '+'; }else { str[size++] = '-'; dec_point = -dec_point; } size += exp_size; do { str[--size] = '0'+dec_point%10; dec_point /= 10; }while(dec_point>0); size += exp_size; str[size] = 0; return ret; } /* ECMA-262 3rd Edition 15.7.4.2 */ static HRESULT Number_toString(script_ctx_t *ctx, vdisp_t *jsthis, WORD flags, unsigned argc, jsval_t *argv, jsval_t *r) { NumberInstance *number; INT radix = 10; DOUBLE val; jsstr_t *str; HRESULT hres; TRACE("\n"); if(!(number = number_this(jsthis))) return throw_type_error(ctx, JS_E_NUMBER_EXPECTED, NULL); if(argc) { hres = to_int32(ctx, argv[0], &radix); if(FAILED(hres)) return hres; if(radix<2 || radix>36) return throw_type_error(ctx, JS_E_INVALIDARG, NULL); } val = number->value; if(radix==10 || isnan(val) || isinf(val)) { hres = to_string(ctx, jsval_number(val), &str); if(FAILED(hres)) return hres; }else { INT idx = 0; DOUBLE integ, frac, log_radix = 0; WCHAR buf[NUMBER_TOSTRING_BUF_SIZE+16]; BOOL exp = FALSE; if(val<0) { val = -val; buf[idx++] = '-'; } while(1) { integ = floor(val); frac = val-integ; if(integ == 0) buf[idx++] = '0'; while(integ>=1 && idx beg) { wch = buf[beg]; buf[beg++] = buf[end]; buf[end--] = wch; } } if(idx != NUMBER_TOSTRING_BUF_SIZE) buf[idx++] = '.'; while(frac>0 && idx20) return throw_range_error(ctx, JS_E_FRACTION_DIGITS_OUT_OF_RANGE, NULL); } val = number->value; if(isinf(val) || isnan(val)) { hres = to_string(ctx, jsval_number(val), &str); if(FAILED(hres)) return hres; }else { str = number_to_fixed(val, prec); if(!str) return E_OUTOFMEMORY; } if(r) *r = jsval_string(str); else jsstr_release(str); return S_OK; } static HRESULT Number_toExponential(script_ctx_t *ctx, vdisp_t *jsthis, WORD flags, unsigned argc, jsval_t *argv, jsval_t *r) { NumberInstance *number; DOUBLE val; INT prec = 0; jsstr_t *str; HRESULT hres; TRACE("\n"); if(!(number = number_this(jsthis))) return throw_type_error(ctx, JS_E_NUMBER_EXPECTED, NULL); if(argc) { hres = to_int32(ctx, argv[0], &prec); if(FAILED(hres)) return hres; if(prec<0 || prec>20) return throw_range_error(ctx, JS_E_FRACTION_DIGITS_OUT_OF_RANGE, NULL); } val = number->value; if(isinf(val) || isnan(val)) { hres = to_string(ctx, jsval_number(val), &str); if(FAILED(hres)) return hres; }else { if(!prec) prec--; str = number_to_exponential(val, prec); if(!str) return E_OUTOFMEMORY; } if(r) *r = jsval_string(str); else jsstr_release(str); return S_OK; } static HRESULT Number_toPrecision(script_ctx_t *ctx, vdisp_t *jsthis, WORD flags, unsigned argc, jsval_t *argv, jsval_t *r) { NumberInstance *number; INT prec = 0, size; jsstr_t *str; DOUBLE val; HRESULT hres; if(!(number = number_this(jsthis))) return throw_type_error(ctx, JS_E_NUMBER_EXPECTED, NULL); if(argc) { hres = to_int32(ctx, argv[0], &prec); if(FAILED(hres)) return hres; if(prec<1 || prec>21) return throw_range_error(ctx, JS_E_PRECISION_OUT_OF_RANGE, NULL); } val = number->value; if(isinf(val) || isnan(val) || !prec) { hres = to_string(ctx, jsval_number(val), &str); if(FAILED(hres)) return hres; }else { if(val != 0) size = floor(log10(val>0 ? val : -val)) + 1; else size = 1; if(size > prec) str = number_to_exponential(val, prec-1); else str = number_to_fixed(val, prec-size); if(!str) return E_OUTOFMEMORY; } if(r) *r = jsval_string(str); else jsstr_release(str); return S_OK; } static HRESULT Number_valueOf(script_ctx_t *ctx, vdisp_t *jsthis, WORD flags, unsigned argc, jsval_t *argv, jsval_t *r) { NumberInstance *number; TRACE("\n"); if(!(number = number_this(jsthis))) return throw_type_error(ctx, JS_E_NUMBER_EXPECTED, NULL); if(r) *r = jsval_number(number->value); return S_OK; } static HRESULT Number_get_value(script_ctx_t *ctx, jsdisp_t *jsthis, jsval_t *r) { NumberInstance *number = number_from_jsdisp(jsthis); TRACE("(%p)\n", number); *r = jsval_number(number->value); return S_OK; } static const builtin_prop_t Number_props[] = { {toExponentialW, Number_toExponential, PROPF_METHOD|1}, {toFixedW, Number_toFixed, PROPF_METHOD}, {toLocaleStringW, Number_toLocaleString, PROPF_METHOD}, {toPrecisionW, Number_toPrecision, PROPF_METHOD|1}, {toStringW, Number_toString, PROPF_METHOD|1}, {valueOfW, Number_valueOf, PROPF_METHOD} }; static const builtin_info_t Number_info = { JSCLASS_NUMBER, {NULL, NULL,0, Number_get_value}, sizeof(Number_props)/sizeof(*Number_props), Number_props, NULL, NULL }; static const builtin_info_t NumberInst_info = { JSCLASS_NUMBER, {NULL, NULL,0, Number_get_value}, 0, NULL, NULL, NULL }; static HRESULT NumberConstr_value(script_ctx_t *ctx, vdisp_t *jsthis, WORD flags, unsigned argc, jsval_t *argv, jsval_t *r) { double n; HRESULT hres; TRACE("\n"); switch(flags) { case INVOKE_FUNC: if(!argc) { if(r) *r = jsval_number(0); return S_OK; } hres = to_number(ctx, argv[0], &n); if(FAILED(hres)) return hres; if(r) *r = jsval_number(n); break; case DISPATCH_CONSTRUCT: { jsdisp_t *obj; if(argc) { hres = to_number(ctx, argv[0], &n); if(FAILED(hres)) return hres; }else { n = 0; } hres = create_number(ctx, n, &obj); if(FAILED(hres)) return hres; *r = jsval_obj(obj); break; } default: FIXME("unimplemented flags %x\n", flags); return E_NOTIMPL; } return S_OK; } static HRESULT alloc_number(script_ctx_t *ctx, jsdisp_t *object_prototype, NumberInstance **ret) { NumberInstance *number; HRESULT hres; number = heap_alloc_zero(sizeof(NumberInstance)); if(!number) return E_OUTOFMEMORY; if(object_prototype) hres = init_dispex(&number->dispex, ctx, &Number_info, object_prototype); else hres = init_dispex_from_constr(&number->dispex, ctx, &NumberInst_info, ctx->number_constr); if(FAILED(hres)) { heap_free(number); return hres; } *ret = number; return S_OK; } HRESULT create_number_constr(script_ctx_t *ctx, jsdisp_t *object_prototype, jsdisp_t **ret) { NumberInstance *number; HRESULT hres; static const WCHAR NumberW[] = {'N','u','m','b','e','r',0}; hres = alloc_number(ctx, object_prototype, &number); if(FAILED(hres)) return hres; number->value = 0; hres = create_builtin_constructor(ctx, NumberConstr_value, NumberW, NULL, PROPF_CONSTR|1, &number->dispex, ret); jsdisp_release(&number->dispex); return hres; } HRESULT create_number(script_ctx_t *ctx, double value, jsdisp_t **ret) { NumberInstance *number; HRESULT hres; hres = alloc_number(ctx, NULL, &number); if(FAILED(hres)) return hres; number->value = value; *ret = &number->dispex; return S_OK; }