It's verification time!!!
#21
As part of Project Manhattan, I am doing a port of the QB64 runtime as well as doing some kernel work.
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#22
post the cloth simulator!
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#23
One cloth simulation:
https://github.com/fatman2021/Simulation...i.tar.lzma
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#24
qb64.bi updates

Code: (Select All)
#define ptrszint  int64
#define uptrszint uint64
#define ptrsz     8

' QB64 string descriptor structure
type qbs_field
    as int32 fileno
    as int64 fileid
    as int64 size
    as int64 offset
end type

type qbs
    as uint8 ptr chr  ' a 32 bit pointer to the string's data
    as int32 len      ' must be signed for comparisons against signed int32s
    as uint8 in_mem64 ' set to 1 if in the conventional memory DBLOCK
    as uint16 ptr mem64_descriptor
    as uint16 mem64_descriptor_offset
    as uint32 listi     ' the index in the list of strings that references it
    as uint8 tmp        ' set to 1 if the string can be deleted immediately after being processed
    as uint32 tmplisti  ' the index in the list of strings that references it
    as uint8 fixed      ' fixed length string
    as uint8 readonly   ' set to 1 if string is read only
    as qbs_field ptr field
end type

type img_struct
    as any ptr lock_offset
    as int64 lock_id
    as uint8 valid    ' 0,1 0=invalid
    as uint8 text    ' if set, surface is a text surface
    as uint8 console ' dummy surface to absorb unimplemented console functionality
    as uint16 width
    as uint16 height
    as uint8 bytes_per_pixel  ' 1,2,4
    as uint8 bits_per_pixel   ' 1,2,4,8,16(text),32
    as uint32 mask            ' 1,3,&HF,&HFF,&HFFFF,&HFFFFFFFF
    as uint16 compatible_mode ' 0,1,2,7,8,9,10,11,12,13,32,256
    as uint32 color
    as uint32 background_color
    as uint32 draw_color
    as uint32 font               ' 8,14,16,?
    as int16 top_row    ' VIEW PRINT settings, unique (as in QB) to each "page"
    as int16 bottom_row ' unique (as in QB) to each "page"
    as int16 cursor_x
    as int16 cursor_y 
    as uint8 cursor_show
    as uint8 cursor_firstvalue
    as uint8 cursor_lastvalue
    union
        as uint8 ptr offset
        as uint32 ptr offset32
    end union
    as uint32 flags
    as uint32 ptr pal
    as int32 transparent_color  '-1 means no color is transparent
    as uint8 alpha_disabled
    as uint8 holding_cursor
    as uint8 print_mode
    ' BEGIN apm ('active page migration')
    ' everything between apm points is migrated during active page changes
    ' note: apm data is only relevent to graphics modes
    as uint8 apm_p1
    as int32 view_x1
    as int32 view_y1
    as int32 view_x2
    as int32 view_y2
    as int32 view_offset_x
    as int32 view_offset_y
    as float x
    as float y
    as uint8 clipping_or_scaling
    as float scaling_x
    as float scaling_y
    as float scaling_offset_x
    as float scaling_offset_y
    as float window_x1
    as float window_y1
    as float window_x2
    as float window_y2
    as float draw_ta
    as float draw_scale
    as uint8 apm_p2
    ' END apm
end type

' img_struct flags
#define IMG_FREEPAL 1 ' free palette data before freeing image
#define IMG_SCREEN  2 ' img is linked to other screen pages
#define IMG_FREEMEM 4 ' if set, it means memory must be freed

' QB64 internal variable type flags (internally referenced by some functions)
#define ISSTRING             1073741824
#define ISFLOAT               536870912
#define ISUNSIGNED            268435456
#define ISPOINTER             134217728
#define ISFIXEDLENGTH          67108864 ' only set for strings with pointer flag
#define ISINCONVENTIONALMEMORY 33554432
#define ISOFFSETINBITS         16777216

type ontimer_struct
    as uint8 allocated
    as uint32 id       ' the event ID to trigger (0=no event)
    as int64 pass      ' the value to pass to the triggered event (only applicable to ON ... CALL ...(x)
    as uint8 active    ' 0=OFF, 1=ON, 2=STOP
    as uint8 state     ' 0=untriggered,1=triggered
    as float seconds   ' how many seconds between events
    as float last_time ' the last time this event was triggered
end type

type onkey_struct
    as uint32 id                 ' the event ID to trigger (0=no event)
    as int64 pass                ' the value to pass to the triggered event (only applicable to ON ... CALL ...(x)
    as uint8 active              ' 0=OFF, 1=ON, 2=STOP
    as uint8 state               ' 0=untriggered,1=triggered,2=in progress(TIMER only),2+=multiple events queued(KEY only)
    as uint32 keycode            ' 32-bit code, same as what _KEYHIT returns
    as uint32 keycode_alternate  ' an alternate keycode which may also trigger event
    as uint8 key_scancode
    as uint8 key_flags
    ' flags:
    ' 0 No keyboard flag, 1-3 Either Shift key, 4 Ctrl key, 8 Alt key,32 NumLock key,64 Caps Lock key, 128 Extended keys on a 101-key keyboard
    ' To specify multiple shift states, add the values together. For example, a value of 12 specifies that the user-defined key is used in combination with the
    ' Ctrl and Alt keys.
    as qbs ptr text
end type

type onstrig_struct
    as uint32 id     ' the event ID to trigger (0=no event)
    as int64 pass    ' the value to pass to the triggered event (only applicable to ON ... CALL ...(x)
    as uint8 active  ' 0=OFF, 1=ON, 2=STOP
    as uint8 state   ' 0=untriggered,1=triggered,2=in progress(TIMER only),2+=multiple events queued(KEY only)
end type

type byte_element_struct
    as uint64 offset
    as int32 length
end type

type device_struct
    as int32 used
    as int32 type
    ' 0=Unallocated
    ' 1=Joystick/Gamepad
    ' 2=Keybaord
    ' 3=Mouse
    as char ptr name
    as int32 connected
    as int32 lastbutton
    as int32 lastaxis
    as int32 lastwheel
    '--------------
    as int32 max_events
    as int32 queued_events
    as uint8 ptr events ' the structure and size of the events depends greatly on the device and its capabilities
    as int32 event_size
    '--------------
    dim as uint8 STRIG_button_pressed(256) ' checked and cleared by the STRIG function
    '--------------
    as any ptr handle_pointer ' handle as pointer
    as int64 handle_int       ' handle as integer
    as char ptr description   ' description provided by manufacturer
    as int64 product_id
    as int64 vendor_id
    as int32 buttons
    as int32 axes
    as int32 balls
    as int32 hats
end type

' device_struct constants
#define QUEUED_EVENTS_LIMIT   1024
#define DEVICETYPE_CONTROLLER    1
#define DEVICETYPE_KEYBOARD      2
#define DEVICETYPE_MOUSE         3


type mem_block
    as ptrszint offset
    as ptrszint size
    as int64 lock_id        ' 64-bit key, must be present at lock's offset or memory region is invalid
    as ptrszint lock_offset ' pointer to lock
    as ptrszint type
    /'
        memorytype (4 bytes, but only the first used, for flags):
        1 integer values
        2 unsigned (set in conjunction with integer)
        4 floating point values
        8 char string(s) 'element-size is the memory size of 1 string
    '/
    as ptrszint elementsize
    as int32 image
    as int32 sound
end type

type mem_lock
    as uint64 id
    as int32 type ' required to know what action to take (if any) when a request is made to free the block
    ' 0=no security (eg. user defined block from _OFFSET)
    ' 1=C-malloc'ed block
    '  2=image
    ' 3=sub/function scope block
    ' 4=array
    '  5=sound
    ' ---- type specific variables follow ----
    as any ptr offset ' used by malloc'ed blocks to free them
end type

static shared as uint32 new_error = 0
static shared as uint32 error_err = 0
static shared as float  error_erl = 0
static shared as uint32 error_occurred = 0
static shared as uint32 error_goto_line = 0
static shared as uint32 error_handling = 0
static shared as uint32 error_retry = 0

' keyhit cyclic buffer
static shared as int64 keyhit(8192)
'    keyhit specific internal flags: (stored in high 32-bits)
'    &4294967296->numpad was used
static shared as int32 keyhit_nextfree
static shared as int32 keyhit_next
' note: if full, the oldest message is discarded to make way for the new message

static shared as uint8 port60h_event(256)
static shared as int32 port60h_events

static shared as int32 window_exists
static shared as int32 no_control_characters2

static shared as int32 disableEvents = 0

' shared global variables
static shared as int32 consolekey
static shared as int32 consolemousex
static shared as int32 consolemousey
static shared as int32 consolebutton

static shared as int32 sleep_break
static shared as uint64 mem_lock_id
static shared as mem_lock ptr mem_lock_tmp
static shared as int64 exit_code
static shared as int32 lock_mainloop ' 0=unlocked, 1=lock requested, 2=locked
static shared as int64 device_event_index
static shared as int32 exit_ok
static shared as qbs ptr func_command_str
static shared as int32 timer_event_occurred = 0 ' inc/dec as each GOSUB to QBMAIN ()
                                                ' begins/ends
static shared as int32 timer_event_id = 0
static shared as int32 key_event_occurred = 0 ' inc/dec as each GOSUB to QBMAIN () begins/ends
static shared as int32 key_event_id = 0
static shared as int32 strig_event_occurred = 0 ' inc/dec as each GOSUB to QBMAIN ()
                                                ' begins/ends
static shared as int32 strig_event_id = 0
static shared as uint32 ercl
static shared as uint32 inclercl
static shared as char ptr includedfilename
static shared as uint16 call_absolute_offsets(256)
static shared as uint32 dbgline
static shared as uint32 qbs_mem64_sp = 256
static shared as uint32 mem64_sp = 65536
static shared as ptrszint dblock ' 32bit offset of dblock
static shared as uint8 close_program = 0
static shared as int32 tab_spc_cr_size = 1 ' 1=PRINT(default), 2=FILE
static shared as int32 tab_fileno = 0      ' only valid if tab_spc_cr_size=2
static shared as int32 tab_LPRINT = 0      ' 1=dest is LPRINT image

static shared as uint64 ptr nothingvalue ' a pointer to 8 empty bytes in dblock
static shared as uint32 qbs_tmp_list_nexti = 1
static shared as uint32 bkp_new_error = 0
static shared as qbs ptr nothingstring
static shared as uint32 qbevent = 0
static shared as uint8 suspend_program = 0
static shared as uint8 stop_program = 0

static shared as SYSTEM_TYPE ptr mem64_static_pointer = @mem64(0) + 1280 + 65536
static shared as SYSTEM_TYPE ptr mem64_dynamic_base = @mem64(0) + 655360
static shared as SYSTEM_TYPE ptr mem_static
static shared as SYSTEM_TYPE ptr mem_static_pointer
static shared as SYSTEM_TYPE ptr mem_static_limit
static shared as float last_line = 0
static shared as uint32 next_return_point = 0
static shared as uint32 ptr return_point = 0: return_point = peek(uint32 ptr,malloc(4 * 16384))
static shared as uint32 return_points = 16384
static shared as any ptr qbs_input_variableoffsets(257)
static shared as int32 qbs_input_variabletypes(257)


' qbmain specific global variables
static shared as char g_tmp_char
static shared as uint8 g_tmp_uchar
static shared as int16 g_tmp_short
static shared as uint16 g_tmp_ushort
static shared as int32 g_tmp_long
static shared as uint32 g_tmp_ulong

static shared as int8 g_tmp_int8
static shared as uint8 g_tmp_uint8
static shared as int16 g_tmp_int16
static shared as uint16 g_tmp_uint16
static shared as int32 g_tmp_int32
static shared as uint32 g_tmp_uint32
static shared as int64 g_tmp_int64
static shared as uint64 g_tmp_uint64
static shared as float g_tmp_float
static shared as float g_tmp_double
static shared as float g_tmp_longdouble

static shared as qbs ptr g_tmp_str
static shared as qbs ptr g_swap_str
static shared as qbs ptr pass_str
static shared as ptrszint data_offset = 0
Reply
#25
bit-array access functions
Code: (Select All)
' bit-array access functions (note: used to be included through 'bit.cpp')
proc SYSTEM_BUS_T.getubits(bsize as uint32, _base as uint8 ptr, i as ptrszint) as uint64
    static as int64 bmask, n=1
    bmask = not (-((peek(int64,@n))) shl bsize)
    i *= bsize
    return ((*cptr(uint64 ptr,(_base + (i shr 3)))) shr (i and 7)) and bmask
end proc

proc SYSTEM_BUS_T.getbits(bsize as uint32, _base as uint8 ptr, i as ptrszint) as int64
    static as int64 bmask, bval64, n=1
    bmask = not (-((peek(int64,@n)) shl bsize))
    i *= bsize
    bval64 = ((*cptr(uint64 ptr,(_base + (i shr 3))) shr (i and 7))) and bmask
    if (bval64 and ((peek(int64,@n)) shl (bsize - 1))) then
        return bval64 or (not bmask)
    end if   
    return bval64
end proc

def  SYSTEM_BUS_T.setbits(bsize as uint32, _base as uint8 ptr, i as ptrszint, _val as int64)
    static as int64 bmask,n=1
    static as uint64 ptr bptr64
    bmask = ((peek(uint64,@n)) shl bsize) - 1
    i *= bsize
    bptr64 = peek(uint64 ptr,(_base + (i shr 3)))
    *bptr64 = (*cptr(uint64 ptr,bptr64) and (((bmask shl (i and 7)) xor -1))) or ((_val and bmask) shl (i and 7))
end def
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#26
"QB64 runtime"? Stupid question: is this going to be set up more or less like M$QB, ie. BRUN45.EXE? This would be a good idea to have like 20 or more programs in a single directory with the runtime module and the data (configuration, images, CSV files etc.) they require. Since people keep complaining about the EXE sizes created by QB64 even on 64-bit. I'm sorry if I misunderstand.

Very clever of the OP to port stuff from Python and even using the same keyword in particular.
Reply
#27
(07-20-2022, 10:07 PM)dbox Wrote: What is all this?

(07-27-2022, 10:08 PM)mnrvovrfc Wrote: "QB64 runtime"? Stupid question: is this going to be set up more or less like M$QB, ie. BRUN45.EXE? This would be a good idea to have like 20 or more programs in a single directory with the runtime module and the data (configuration, images, CSV files etc.) they require. Since people keep complaining about the EXE sizes created by QB64 even on 64-bit. I'm sorry if I misunderstand.

Very clever of the OP to port stuff from Python and even using the same keyword in particular.

It will be more like QB.LIB.
Reply
#28
(07-21-2022, 06:46 PM)fatman2021 Wrote: One cloth simulation:
https://github.com/fatman2021/Simulation...i.tar.lzma

That's not a simulator, that's a video.  Show us the solution CGI source code for the challenge you put out
Reply
#29
(07-20-2022, 10:07 PM)dbox Wrote: What is all this?

(07-28-2022, 07:37 AM)vince Wrote:
(07-21-2022, 06:46 PM)fatman2021 Wrote: One cloth simulation:
https://github.com/fatman2021/Simulation...i.tar.lzma

That's not a simulator, that's a video.  Show us the solution CGI source code for the challenge you put out

Here check this out:
https://github.com/fatman2021/project-ma...vd-bpc.bas
https://github.com/fatman2021/project-ma...hipset.bas
https://github.com/fatman2021/project-ma...r/gpu1.bas
https://github.com/fatman2021/project-ma...object.bas
https://github.com/fatman2021/project-ma...ations.bas
https://github.com/fatman2021/project-ma.../tools.bas
https://github.com/fatman2021/project-ma...terial.bas
https://github.com/fatman2021/project-ma.../light.bas
https://github.com/fatman2021/project-ma...difier.bas
https://github.com/fatman2021/project-ma...r/gpu2.bas
https://github.com/fatman2021/project-ma.../gpu2a.bas
https://github.com/fatman2021/project-ma.../gpu2b.bas
https://github.com/fatman2021/project-ma...kernel.bas
https://github.com/fatman2021/project-ma...kernal.bas
https://github.com/fatman2021/project-ma.../basic.bas
https://github.com/fatman2021/project-ma...r/char.bas
https://github.com/fatman2021/project-ma...kernel.txt
Reply
#30
Updated floating point math support:
Code: (Select All)
' float128 math functions
/'
void float128_from_double(float128* a, double* b) {
    *a = (float128)(*(double*)(b));
}
'/
def SYSTEM_BUS_T.k_float128_from_double(a as FLOAT128 ptr, b as float ptr)
    *a = *b
end def
/'
void float128_to_double(float128* a, double* b) {
    *a = (double)(*(float128*)(b));
}
'/
def SYSTEM_BUS_T.k_float128_to_double(a as FLOAT128 ptr, b as float ptr)
    *b = *a
end def
/'
void float128_add(float128* a, float128* b, float128* c) {
    *c = *a + *b;
}
'/
def SYSTEM_BUS_T.k_float128_add(a as FLOAT128 ptr, b as FLOAT128 ptr, c as FLOAT128 ptr)
    *c = *a + *b
end def
/'
void float128_sub(float128* a, float128* b, float128* c) {
    *c = *a - *b;
}
'/
def SYSTEM_BUS_T.k_float128_sub(a as FLOAT128 ptr, b as FLOAT128 ptr, c as FLOAT128 ptr)
    *c = *a - *b
end def
/'
void float128_abs(float128* a, float128* b) {
    if (*a > 0) {
        *b = *a;
    } else {
        *b = -*a;
    }
}
'/ 
def SYSTEM_BUS_T.k_float128_abs(a as FLOAT128 ptr, b as FLOAT128 ptr)
    if (*a > 0) then
        *b = *a
    else
        *b = -*a
    end if
end def
/'
void float128_mul(float128* a, float128* b, float128* c) {
    *c = *a * *b;
}
'/
def SYSTEM_BUS_T.k_float128_mul(a as FLOAT128 ptr, b as FLOAT128 ptr, c as FLOAT128 ptr)
    *c = *a * *b
end def
/'
void float128_div(float128* a, float128* b, float128* c) {
    *c = *a / *b;
}
'/
def SYSTEM_BUS_T.k_float128_div(a as FLOAT128 ptr, b as FLOAT128 ptr, c as FLOAT128 ptr)
    *c = *a / *b
end def
/'
int float128_cmp(float128* a, float128* b) {
    if (*a > *b) {
        return 1;
    } else if (*a < *b) {
        return -1;
    } else {
        return 0;
    }
}
'/
proc SYSTEM_BUS_T.k_float128_cmp(a as FLOAT128 ptr, b as FLOAT128 ptr) as int_t
    if (*a > *b) then
        return 1
    elseif (*a < *b) then
        return -1
    else
        return 0
    endif
end proc

' float256 math functions
/'
void float256_from_double(float256* a, double* b) {
    *a = (float256)(*(double*)(b));
}
'/
def SYSTEM_BUS_T.k_float256_from_double(a as FLOAT256 ptr, b as float ptr)
    *a = *b
end def
/'
void float256_to_double(float256* a, double* b) {
    *a = (double)(*(float256*)(b));
}
'/
def SYSTEM_BUS_T.k_float256_to_double(a as FLOAT256 ptr, b as float ptr)
    *b = *a
end def
/'
void float256_add(float256* a, float256* b, float256* c) {
    *c = *a + *b;
}
'/
def SYSTEM_BUS_T.k_float256_add(a as FLOAT256 ptr, b as FLOAT256 ptr, c as FLOAT256 ptr)
    *c = *a + *b
end def
/'
void float256_sub(float256* a, float256* b, float256* c) {
    *c = *a - *b;
}
'/
def SYSTEM_BUS_T.k_float256_sub(a as FLOAT256 ptr, b as FLOAT256 ptr, c as FLOAT256 ptr)
    *c = *a - *b
end def
/'
void float256_abs(float256* a, float256* b) {
    if (*a > 0) {
        *b = *a;
    } else {
        *b = -*a;
    }
}
'/ 
def SYSTEM_BUS_T.k_float256_abs(a as FLOAT256 ptr, b as FLOAT256 ptr)
    if (*a > 0) then
        *b = *a
    else
        *b = -*a
    end if
end def
/'
void float256_mul(float256* a, float256* b, float256* c) {
    *c = *a * *b;
}
'/
def SYSTEM_BUS_T.k_float256_mul(a as FLOAT256 ptr, b as FLOAT256 ptr, c as FLOAT256 ptr)
    *c = *a * *b
end def
/'
void float256_div(float256* a, float256* b, float256* c) {
    *c = *a / *b;
}
'/
def SYSTEM_BUS_T.k_float256_div(a as FLOAT256 ptr, b as FLOAT256 ptr, c as FLOAT256 ptr)
    *c = *a / *b
end def
/'
int float256_cmp(float256* a, float256* b) {
    if (*a > *b) {
        return 1;
    } else if (*a < *b) {
        return -1;
    } else {
        return 0;
    }
}
'/
proc SYSTEM_BUS_T.k_float256_cmp(a as FLOAT256 ptr, b as FLOAT256 ptr) as int_t
    if (*a > *b) then
        return 1
    elseif (*a < *b) then
        return -1
    else
        return 0
    endif
end proc

' float512 math functions
/'
void float512_from_double(float512* a, double* b) {
    *a = (float512)(*(double*)(b));
}
'/
def SYSTEM_BUS_T.k_float512_from_double(a as FLOAT512 ptr, b as float ptr)
    *a = *b
end def
/'
void float512_to_double(float512* a, double* b) {
    *a = (double)(*(float512*)(b));
}
'/
def SYSTEM_BUS_T.k_float512_to_double(a as FLOAT512 ptr, b as float ptr)
    *b = *a
end def
/'
void float512_add(float512* a, float512* b, float512* c) {
    *c = *a + *b;
}
'/
def SYSTEM_BUS_T.k_float512_add(a as FLOAT512 ptr, b as FLOAT512 ptr, c as FLOAT512 ptr)
    *c = *a + *b
end def
/'
void float512_sub(float512* a, float512* b, float512* c) {
    *c = *a - *b;
}
'/
def SYSTEM_BUS_T.k_float512_sub(a as FLOAT512 ptr, b as FLOAT512 ptr, c as FLOAT512 ptr)
    *c = *a - *b
end def
/'
void float512_abs(float512* a, float512* b) {
    if (*a > 0) {
        *b = *a;
    } else {
        *b = -*a;
    }
}
'/ 
def SYSTEM_BUS_T.k_float512_abs(a as FLOAT512 ptr, b as FLOAT512 ptr)
    if (*a > 0) then
        *b = *a
    else
        *b = -*a
    end if
end def
/'
void float512_mul(float512* a, float512* b, float512* c) {
    *c = *a * *b;
}
'/
def SYSTEM_BUS_T.k_float512_mul(a as FLOAT512 ptr, b as FLOAT512 ptr, c as FLOAT512 ptr)
    *c = *a * *b
end def
/'
void float512_div(float512* a, float512* b, float512* c) {
    *c = *a / *b;
}
'/
def SYSTEM_BUS_T.k_float512_div(a as FLOAT512 ptr, b as FLOAT512 ptr, c as FLOAT512 ptr)
    *c = *a / *b
end def
/'
int float512_cmp(float512* a, float512* b) {
    if (*a > *b) {
        return 1;
    } else if (*a < *b) {
        return -1;
    } else {
        return 0;
    }
}
'/
proc SYSTEM_BUS_T.k_float512_cmp(a as FLOAT512 ptr, b as FLOAT512 ptr) as int_t
    if (*a > *b) then
        return 1
    elseif (*a < *b) then
        return -1
    else
        return 0
    endif
end proc
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