Merge pull request #12507 from s-hadinger/lvgl_prepare

LVGL Prepare last phase custom types
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s-hadinger 2021-06-29 13:41:54 +02:00 committed by GitHub
commit 2a53cb0d06
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GPG Key ID: 4AEE18F83AFDEB23
6 changed files with 1567 additions and 17 deletions

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@ -13,6 +13,7 @@
#include "be_exec.h"
#include "be_vm.h"
#include "be_mem.h"
#include "be_constobj.h"
#include <string.h>
#include <ctype.h>
@ -47,13 +48,6 @@ static void buf_set_len(buf_impl* buf, const size_t len)
}
}
static void buf_set1(buf_impl* buf, const size_t offset, const uint8_t data)
{
if (offset < buf->len) {
buf->buf[offset] = data;
}
}
static size_t buf_add1(buf_impl* buf, const uint8_t data) // append 8 bits value
{
if (buf->len < buf->size) { // do we have room for 1 byte
@ -120,7 +114,31 @@ static uint8_t buf_get1(buf_impl* buf, int offset)
return 0;
}
static uint16_t buf_get2_le(buf_impl* buf, int offset) {
static void buf_set1(buf_impl* buf, const size_t offset, const uint8_t data)
{
if (offset < buf->len) {
buf->buf[offset] = data;
}
}
static void buf_set2_le(buf_impl* buf, const size_t offset, const uint16_t data)
{
if ((offset >= 0) && (offset < buf->len - 1)) {
buf->buf[offset] = data & 0xFF;
buf->buf[offset+1] = data >> 8;
}
}
static void buf_set2_be(buf_impl* buf, const size_t offset, const uint16_t data)
{
if ((offset >= 0) && (offset < buf->len - 1)) {
buf->buf[offset+1] = data & 0xFF;
buf->buf[offset] = data >> 8;
}
}
static uint16_t buf_get2_le(buf_impl* buf, int offset)
{
if ((offset >= 0) && (offset < buf->len - 1)) {
return buf->buf[offset] | (buf->buf[offset+1] << 8);
}
@ -135,6 +153,26 @@ static uint16_t buf_get2_be(buf_impl* buf, int offset)
return 0;
}
static void buf_set4_le(buf_impl* buf, const size_t offset, const uint32_t data)
{
if ((offset >= 0) && (offset < buf->len - 3)) {
buf->buf[offset] = data & 0xFF;
buf->buf[offset+1] = (data >> 8) & 0xFF;
buf->buf[offset+2] = (data >> 16) & 0xFF;
buf->buf[offset+3] = data >> 24;
}
}
static void buf_set4_be(buf_impl* buf, const size_t offset, const uint32_t data)
{
if ((offset >= 0) && (offset < buf->len - 3)) {
buf->buf[offset+3] = data & 0xFF;
buf->buf[offset+2] = (data >> 8) & 0xFF;
buf->buf[offset+1] = (data >> 16) & 0xFF;
buf->buf[offset] = data >> 24;
}
}
static uint32_t buf_get4_le(buf_impl* buf, int offset)
{
if ((offset >= 0) && (offset < buf->len - 3)) {
@ -383,13 +421,13 @@ static int m_add(bvm *vm)
/*
* Get an int made of 1, 2 or 4 bytes, in little or big endian
* `get(index:int[, size:int = 1]) -> instance`
* `get(index:int[, size:int = 1]) -> int`
*
* size: may be 1, 2, 4 (little endian), or -1, -2, -4 (big endian)
* obvisouly -1 is idntical to 1
* obvisouly -1 is identical to 1
* 0 returns nil
*/
static int m_get(bvm *vm)
static int m_get(bvm *vm, bbool sign)
{
int argc = be_top(vm);
buf_impl * buf = bytes_check_data(vm, 0); /* we reserve 4 bytes anyways */
@ -403,10 +441,16 @@ static int m_get(bvm *vm)
switch (vsize) {
case 0: break;
case -1: /* fallback below */
case 1: ret = buf_get1(buf, idx); break;
case 2: ret = buf_get2_le(buf, idx); break;
case 1: ret = buf_get1(buf, idx);
if (sign) { ret = (int8_t)(uint8_t) ret; }
break;
case 2: ret = buf_get2_le(buf, idx);
if (sign) { ret = (int16_t)(uint16_t) ret; }
break;
case 4: ret = buf_get4_le(buf, idx); break;
case -2: ret = buf_get2_be(buf, idx); break;
case -2: ret = buf_get2_be(buf, idx);
if (sign) { ret = (int16_t)(uint16_t) ret; }
break;
case -4: ret = buf_get4_be(buf, idx); break;
default: be_raise(vm, "type_error", "size must be -4, -2, -1, 0, 1, 2 or 4.");
}
@ -421,6 +465,53 @@ static int m_get(bvm *vm)
be_return_nil(vm);
}
/* signed int */
static int m_geti(bvm *vm)
{
return m_get(vm, 1);
}
/* unsigned int */
static int m_getu(bvm *vm)
{
return m_get(vm, 0);
}
/*
* Set an int made of 1, 2 or 4 bytes, in little or big endian
* `set(index:int, value:int[, size:int = 1]) -> nil`
*
* size: may be 1, 2, 4 (little endian), or -1, -2, -4 (big endian)
* obvisouly -1 is identical to 1
* 0 returns nil
*/
static int m_set(bvm *vm)
{
int argc = be_top(vm);
buf_impl * buf = bytes_check_data(vm, 0); /* we reserve 4 bytes anyways */
if (argc >=3 && be_isint(vm, 2) && be_isint(vm, 3)) {
int32_t idx = be_toint(vm, 2);
int32_t value = be_toint(vm, 3);
int vsize = 1;
if (argc >= 4 && be_isint(vm, 4)) {
vsize = be_toint(vm, 4);
}
switch (vsize) {
case 0: break;
case -1: /* fallback below */
case 1: buf_set1(buf, idx, value); break;
case 2: buf_set2_le(buf, idx, value); break;
case 4: buf_set4_le(buf, idx, value); break;
case -2: buf_set2_be(buf, idx, value); break;
case -4: buf_set4_be(buf, idx, value); break;
default: be_raise(vm, "type_error", "size must be -4, -2, -1, 0, 1, 2 or 4.");
}
be_pop(vm, argc - 1);
be_return_nil(vm);
}
be_return_nil(vm);
}
static int m_setitem(bvm *vm)
{
int argc = be_top(vm);
@ -608,6 +699,26 @@ static int m_nequal(bvm *vm)
return bytes_equal(vm, bfalse);
}
/*
* Advanced API
*/
/*
* Retrieve the memory address of the raw buffer
* to be used in C functions.
*
* Note: the address is guaranteed not to move unless you
* resize the buffer
*
* `_buffer() -> comptr`
*/
static int m_buffer(bvm *vm)
{
buf_impl * buf = bytes_check_data(vm, 0);
be_pushcomptr(vm, &buf->buf);
be_return(vm);
}
/*
* External API
*/
@ -642,17 +753,219 @@ BERRY_API const void *be_tobytes(bvm *vm, int rel_index, size_t *len)
return NULL;
}
/* Helper code to compile bytecode
class Bytes : bytes
#-------------------------------------------------------------
#- 'getbits' function
#-
#- Reads a bit-field in a `bytes()` object
#-
#- Input:
#- offset_bytes (int): byte offset in the bytes() object
#- offset_bits (int): bit number to start reading from (0 = LSB)
#- len_bits (int): how many bits to read
#- Output:
#- valuer (int)
#-------------------------------------------------------------#
def getbits(offset_bits, len_bits)
if len_bits <= 0 || len_bits > 32 raise "value_error", "length in bits must be between 0 and 32" end
var ret = 0
var offset_bytes = offset_bits >> 3
offset_bits = offset_bits % 8
var bit_shift = 0 #- bit number to write to -#
while (len_bits > 0)
var block_bits = 8 - offset_bits # how many bits to read in the current block (block = byte) -#
if block_bits > len_bits block_bits = len_bits end
var mask = ( (1<<block_bits) - 1) << offset_bits
ret = ret | ( ((self[offset_bytes] & mask) >> offset_bits) << bit_shift)
#- move the input window -#
bit_shift += block_bits
len_bits -= block_bits
offset_bits = 0 #- start at full next byte -#
offset_bytes += 1
end
return ret
end
#-------------------------------------------------------------
#- 'setbits' function
#-
#- Writes a bit-field in a `bytes()` object
#-
#- Input:
#- offset_bytes (int): byte offset in the bytes() object
#- offset_bits (int): bit number to start writing to (0 = LSB)
#- len_bits (int): how many bits to write
#- Output:
#- bytes() object modified (by reference)
#-------------------------------------------------------------#
def setbits(offset_bits, len_bits, val)
if len_bits < 0 || len_bits > 32 raise "value_error", "length in bits must be between 0 and 32" end
var offset_bytes = offset_bits >> 3
offset_bits = offset_bits % 8
while (len_bits > 0)
var block_bits = 8 - offset_bits #- how many bits to write in the current block (block = byte) -#
if block_bits > len_bits block_bits = len_bits end
var mask_val = (1<<block_bits) - 1 #- mask to the n bits to get for this block -#
var mask_b_inv = 0xFF - (mask_val << offset_bits)
self[offset_bytes] = (self[offset_bytes] & mask_b_inv) | ((val & mask_val) << offset_bits)
#- move the input window -#
val >>= block_bits
len_bits -= block_bits
offset_bits = 0 #- start at full next byte -#
offset_bytes += 1
end
return self
end
end
*/
/********************************************************************
** Solidified function: getbits
********************************************************************/
be_local_closure(getbits, /* name */
be_nested_proto(
9, /* nstack */
3, /* argc */
0, /* has upvals */
NULL, /* no upvals */
0, /* has sup protos */
NULL, /* no sub protos */
1, /* has constants */
( &(const bvalue[ 5]) { /* constants */
{ { .i=0 }, BE_INT},
{ { .s=be_nested_const_str("value_error", 773297791, 11) }, BE_STRING},
{ { .s=be_nested_const_str("length in bits must be between 0 and 32", -1710458168, 39) }, BE_STRING},
{ { .i=3 }, BE_INT},
{ { .i=1 }, BE_INT},
}),
(be_nested_const_str("getbits", -1200798317, 7)),
(be_nested_const_str("stdin", -1529146723, 5)),
( &(const binstruction[32]) { /* code */
0x180C0500, // 0000 LE R3 R2 R256
0x740E0002, // 0001 JMPT R3 #0005
0x540E001F, // 0002 LDINT R3 32
0x240C0403, // 0003 GT R3 R2 R3
0x780E0000, // 0004 JMPF R3 #0006
0xB0060302, // 0005 RAISE 1 R257 R258
0x580C0000, // 0006 LDCONST R3 K0
0x3C100303, // 0007 SHR R4 R1 R259
0x54160007, // 0008 LDINT R5 8
0x10040205, // 0009 MOD R1 R1 R5
0x58140000, // 000A LDCONST R5 K0
0x24180500, // 000B GT R6 R2 R256
0x781A0011, // 000C JMPF R6 #001F
0x541A0007, // 000D LDINT R6 8
0x04180C01, // 000E SUB R6 R6 R1
0x241C0C02, // 000F GT R7 R6 R2
0x781E0000, // 0010 JMPF R7 #0012
0x5C180400, // 0011 MOVE R6 R2
0x381E0806, // 0012 SHL R7 R260 R6
0x041C0F04, // 0013 SUB R7 R7 R260
0x381C0E01, // 0014 SHL R7 R7 R1
0x94200004, // 0015 GETIDX R8 R0 R4
0x2C201007, // 0016 AND R8 R8 R7
0x3C201001, // 0017 SHR R8 R8 R1
0x38201005, // 0018 SHL R8 R8 R5
0x300C0608, // 0019 OR R3 R3 R8
0x00140A06, // 001A ADD R5 R5 R6
0x04080406, // 001B SUB R2 R2 R6
0x58040000, // 001C LDCONST R1 K0
0x00100904, // 001D ADD R4 R4 R260
0x7001FFEB, // 001E JMP #000B
0x80040600, // 001F RET 1 R3
})
)
);
/*******************************************************************/
/********************************************************************
** Solidified function: setbits
********************************************************************/
be_local_closure(setbits, /* name */
be_nested_proto(
10, /* nstack */
4, /* argc */
0, /* has upvals */
NULL, /* no upvals */
0, /* has sup protos */
NULL, /* no sub protos */
1, /* has constants */
( &(const bvalue[ 5]) { /* constants */
{ { .i=0 }, BE_INT},
{ { .s=be_nested_const_str("value_error", 773297791, 11) }, BE_STRING},
{ { .s=be_nested_const_str("length in bits must be between 0 and 32", -1710458168, 39) }, BE_STRING},
{ { .i=3 }, BE_INT},
{ { .i=1 }, BE_INT},
}),
(be_nested_const_str("setbits", -1532559129, 7)),
(be_nested_const_str("stdin", -1529146723, 5)),
( &(const binstruction[33]) { /* code */
0x14100500, // 0000 LT R4 R2 R256
0x74120002, // 0001 JMPT R4 #0005
0x5412001F, // 0002 LDINT R4 32
0x24100404, // 0003 GT R4 R2 R4
0x78120000, // 0004 JMPF R4 #0006
0xB0060302, // 0005 RAISE 1 R257 R258
0x3C100303, // 0006 SHR R4 R1 R259
0x54160007, // 0007 LDINT R5 8
0x10040205, // 0008 MOD R1 R1 R5
0x24140500, // 0009 GT R5 R2 R256
0x78160014, // 000A JMPF R5 #0020
0x54160007, // 000B LDINT R5 8
0x04140A01, // 000C SUB R5 R5 R1
0x24180A02, // 000D GT R6 R5 R2
0x781A0000, // 000E JMPF R6 #0010
0x5C140400, // 000F MOVE R5 R2
0x381A0805, // 0010 SHL R6 R260 R5
0x04180D04, // 0011 SUB R6 R6 R260
0x541E00FE, // 0012 LDINT R7 255
0x38200C01, // 0013 SHL R8 R6 R1
0x041C0E08, // 0014 SUB R7 R7 R8
0x94200004, // 0015 GETIDX R8 R0 R4
0x2C201007, // 0016 AND R8 R8 R7
0x2C240606, // 0017 AND R9 R3 R6
0x38241201, // 0018 SHL R9 R9 R1
0x30201009, // 0019 OR R8 R8 R9
0x98000808, // 001A SETIDX R0 R4 R8
0x3C0C0605, // 001B SHR R3 R3 R5
0x04080405, // 001C SUB R2 R2 R5
0x58040000, // 001D LDCONST R1 K0
0x00100904, // 001E ADD R4 R4 R260
0x7001FFE8, // 001F JMP #0009
0x80040000, // 0020 RET 1 R0
})
)
);
/*******************************************************************/
#if !BE_USE_PRECOMPILED_OBJECT
void be_load_byteslib(bvm *vm)
{
static const bnfuncinfo members[] = {
{ ".p", NULL },
{ "_buffer", m_buffer },
{ "init", m_init },
{ "tostring", m_tostring },
{ "asstring", m_asstring },
{ "fromstring", m_fromstring },
{ "add", m_add },
{ "get", m_get },
{ "get", m_getu },
{ "geti", m_geti },
{ "set", m_set },
{ "item", m_item },
{ "setitem", m_setitem },
{ "size", m_size },
@ -663,6 +976,11 @@ void be_load_byteslib(bvm *vm)
{ "..", m_connect },
{ "==", m_equal },
{ "!=", m_nequal },
{ NULL, (bntvfunc) BE_CLOSURE }, /* mark section for berry closures */
{ "getbits", (bntvfunc) &getbits_closure },
{ "setbits", (bntvfunc) &setbits_closure },
{ NULL, NULL }
};
be_regclass(vm, "bytes", members);
@ -671,12 +989,15 @@ void be_load_byteslib(bvm *vm)
/* @const_object_info_begin
class be_class_bytes (scope: global, name: bytes) {
.p, var
_buffer, func(m_buffer)
init, func(m_init)
tostring, func(m_tostring)
asstring, func(m_asstring)
fromstring, func(m_fromstring)
add, func(m_add)
get, func(m_get)
get, func(m_getu)
geti, func(m_geti)
set, func(m_set)
item, func(m_item)
setitem, func(m_setitem)
size, func(m_size)
@ -687,6 +1008,9 @@ class be_class_bytes (scope: global, name: bytes) {
.., func(m_connect)
==, func(m_equal)
!=, func(m_nequal)
getbits, closure(getbits_closure)
setbits, closure(setbits_closure)
}
@const_object_info_end */
#include "../generate/be_fixed_be_class_bytes.h"

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@ -122,7 +122,7 @@ static void m_solidify_proto(bvm *vm, bproto *pr, const char * func_name, int bu
logfmt("%*s( &(const binstruction[%2d]) { /* code */\n", indent, "", pr->codesize);
for (int pc = 0; pc < pr->codesize; pc++) {
uint32_t ins = pr->code[pc];
logfmt("%*s 0x%04X, //", indent, "", ins);
logfmt("%*s 0x%08X, //", indent, "", ins);
be_print_inst(ins, pc);
bopcode op = IGET_OP(ins);
if (op == OP_GETGBL || op == OP_SETGBL) {

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@ -165,3 +165,33 @@ assert(str(b) =="bytes('416130')")
b=bytes()
b.fromstring("Lorem ipsum dolor sit amet, consectetur adipiscing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua.")
assert(str(b) =="bytes('4C6F72656D20697073756D20646F6C6F722073697420616D65742C20636F6E73656374657475722061646970697363696E6720656C69742C2073656420646F20656975736D6F642074656D706F7220696E6369646964756E74207574206C61626F726520657420646F6C6F7265206D61676E6120616C697175612E')")
#- setters -#
b=bytes().resize(16)
b.set(5,-1,2)
assert(b == bytes('0000000000FFFF000000000000000000'))
b.set(10,-2,4)
assert(b == bytes('0000000000FFFF000000FEFFFFFF0000'))
b.set(0,0xAA55,1)
assert(b == bytes('5500000000FFFF000000FEFFFFFF0000'))
#- getbits -#
b=bytes("00AAFF55010300")
assert(b.getbits(8,8) == 0xAA)
assert(b.getbits(0,1) == 0)
assert(b.getbits(8,1) == 0)
assert(b.getbits(9,1) == 1)
assert(b.getbits(16,8) == 0xFF)
assert(b.getbits(16,16) == 0x55FF)
assert(b.getbits(16,24) == 0x0155FF)
assert(b.getbits(16,32) == 0x030155FF)
assert(b.getbits(20,8) == 0x5F)
#- setbits -#
b=bytes("00000000FFFFFFFF")
assert(b.setbits(0,1,1) == bytes('01000000FFFFFFFF'))
assert(b.setbits(1,1,1) == bytes('03000000FFFFFFFF'))
assert(b.setbits(0,1,0) == bytes('02000000FFFFFFFF'))
assert(b.setbits(12,16,0xAA55) == bytes('0250A50AFFFFFFFF'))
assert(b.setbits(63,0,0) == bytes('0250A50AFFFFFFFF'))
assert(b.setbits(63,1,0) == bytes('0250A50AFFFFFF7F'))

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@ -0,0 +1,563 @@
#-------------------------------------------------------------
#- Ctypes for Berry
#-
#- Inspired from Python's ctypes structure
#-------------------------------------------------------------#
import string
ctypes = module('ctypes')
#-------------------------------------------------------------
#- Basic types for mapping
#-
#- ints of size 1/2/4 bytes (little endian by default)
#- usigned ints of size 1/2/4 bytes (little endian by default)
#-
#- (Big Endian are negative numbers)
#-------------------------------------------------------------#
# default is little_endian
ctypes.i32 = 14
ctypes.i16 = 12
ctypes.i8 = 11
ctypes.u32 = 4
ctypes.u16 = 2
ctypes.u8 = 1
# explicit little endian
ctypes.le_i32 = 14
ctypes.le_i16 = 12
ctypes.le_i8 = 11
ctypes.le_u32 = 4
ctypes.le_u16 = 2
ctypes.le_u8 = 1
# big endian
ctypes.be_i32 = -14
ctypes.be_i16 = -12
ctypes.be_i8 = -11
ctypes.be_u32 = -4
ctypes.be_u16 = -2
ctypes.be_u8 = -1
# bitfields (always unsigned)
ctypes.bf_0 = 100 # serves as base
ctypes.bf_1 = 101
ctypes.bf_2 = 102
ctypes.bf_3 = 103
ctypes.bf_4 = 104
ctypes.bf_5 = 105
ctypes.bf_6 = 106
ctypes.bf_7 = 107
ctypes.bf_8 = 108
ctypes.bf_9 = 109
ctypes.bf_10 = 110
ctypes.bf_11 = 111
ctypes.bf_12 = 112
ctypes.bf_13 = 113
ctypes.bf_14 = 114
ctypes.bf_15 = 115
#-------------------------------------------------------------
#- 'get_bits' function
#-
#- Reads a bit-field in a `bytes()` object
#-
#- Input:
#- b: bytes() object to read from
#- offset_bytes (int): byte offset in the bytes() object
#- offset_bits (int): bit number to start reading from (0 = LSB)
#- len_bits (int): how many bits to read
#- Output:
#- valuer (int)
#-------------------------------------------------------------#
ctypes.get_bits = def (b, offset_bytes, offset_bits, len_bits)
if !isinstance(b, bytes) raise "value_error", "first argument must be of type 'bytes'" end
if offset_bits < 0 || offset_bits > 7 raise "value_error", "offset_bits must be between 0 and 7" end
if len_bits <= 0 || len_bits > 32 raise "value_error", "length in bits must be between 0 and 32" end
var ret = 0
var bit_shift = 0 # bit number to write to
while (len_bits > 0)
var block_bits = 8 - offset_bits # how many bits to read in the current block (block = byte)
if block_bits > len_bits block_bits = len_bits end
var mask = ( (1<<block_bits) - 1) << offset_bits
# print(string.format("mask = %02X", mask))
ret = ret | ( ((b[offset_bytes] & mask) >> offset_bits) << bit_shift)
# move the input window
bit_shift += block_bits
len_bits -= block_bits
offset_bits = 0 # start at full next byte
offset_bytes += 1
end
return ret
end
ctypes.sort = def (l)
# insertion sort
for i:1..size(l)-1
var k = l[i]
var j = i
while (j > 0) && (l[j-1] > k)
l[j] = l[j-1]
j -= 1
end
l[j] = k
end
return l
end
#-------------------------------------------------------------
#- 'set_bits' function
#-
#- Writes a bit-field in a `bytes()` object
#-
#- Input:
#- b: bytes() object to write to
#- offset_bytes (int): byte offset in the bytes() object
#- offset_bits (int): bit number to start writing to (0 = LSB)
#- len_bits (int): how many bits to write
#- Output:
#- bytes() object modified (by reference)
#-------------------------------------------------------------#
ctypes.set_bits = def (b, offset_bytes, offset_bits, len_bits, val)
if !isinstance(b, bytes) raise "value_error", "first argument must be of type 'bytes'" end
if offset_bits < 0 || offset_bits > 7 raise "value_error", "offset_bits must be between 0 and 7" end
if len_bits <= 0 || len_bits > 32 raise "value_error", "length in bits must be between 0 and 32" end
while (len_bits > 0)
var block_bits = 8 - offset_bits # how many bits to write in the current block (block = byte)
if block_bits > len_bits block_bits = len_bits end
var mask_val = (1<<block_bits) - 1 # mask to the n bits to get for this block
var mask_b_inv = 0xFF - (mask_val << offset_bits)
b[offset_bytes] = (b[offset_bytes] & mask_b_inv) | ((val & mask_val) << offset_bits)
# move the input window
val >>= block_bits
len_bits -= block_bits
offset_bits = 0 # start at full next byte
offset_bytes += 1
end
return b
end
#- print the C types -#1
ctypes.print_types = def ()
print("enum {")
print(" ctypes_ptr = 0,")
print(" ctypes_uint = 1,")
print(" ctypes_int = 2,")
print(" ctypes_str = 3,")
print("};")
print()
print("typedef struct be_ctypes_structure_t {")
print(" const char * name;")
print(" uint16_t offset_bits;")
print(" uint16_t len_bits : 13;")
print(" uint16_t type : 3;")
print("} be_ctypes_structure_t;")
end
#-------------------------------------------------------------
#- 'ctypes.structure' class
#-
#- Parses a ctypes structure descriptor and creates
#- a set of getters and setters
#-
#-------------------------------------------------------------#
class structure
var cur_offset # offset in bytes from buffer start
var bit_offset # are we intra-byte?
var get_closures #
var set_closures #
var size_bytes # size in bytes
var mapping # map to generate C binding
# init world
def init(mapping, name)
self.cur_offset = 0
self.bit_offset = 0
self.size_bytes = 0 # overall size in bytes
self.get_closures = {}
self.set_closures = {}
self.mapping = {}
# parse mapping
self.parse_mapping(mapping, name)
end
#- iteratively parse mapping
#-
#- if name is not nil, it also outputs a C structure for the mapping
#-
#-------------------------------------------------------------#
def parse_mapping(mapping, name)
for map_line: mapping
self.parse_line(map_line)
end
if name != nil
print(string.format("const be_ctypes_structure_t be_%s[%d] = {", name, size(self.mapping)))
# list keys for future binary search
var names = []
for n:self.mapping.keys() names.push(n) end # convert to list
ctypes.sort(names)
for n:names
var args = self.mapping[n]
print(string.format(" { \"%s\", %i, %i, %s },", n, args[0], args[1], args[2]))
end
print("};")
print()
end
# clear any outstanding bitfield
self.align(1)
self.size_bytes = self.cur_offset
end
def size()
return self.size_bytes
end
# parse a single line
def parse_line(map_line)
var type_obj = map_line[0]
var name = map_line[1]
var bits = 0
if size(map_line) >= 3 bits = map_line[2] end
if isinstance(type_obj, ctypes.structure)
# nested structure
self.nested(name, type_obj)
elif type(type_obj) == 'int'
# TODO check actual type
if type_obj > ctypes.bf_0
# bit field
self.get_bitfield_closure(name, type_obj - ctypes.bf_0)
else
# multi-bytes
self.get_int_closure(name, type_obj)
end
end
end
#- ensure alignment to 1/2/4 bytes -#
def align(n)
if n != 1 && n != 2 && n != 4 raise "value_error", "acceptable values are 1/2/4" end
#- align to byte boundary if we're in a bitfield -#
if self.bit_offset != 0
#- we are not byte aligned, let's re-aling -#
self.cur_offset += 1
self.bit_offset = 0
#- check 2/4 bytes alignment -#
if self.cur_offset % n != 0
# we are not aligned with current size
self.cur_offset += n - self.cur_offset % n
end
end
end
def nested(name, type_obj)
var sub_size = type_obj.size()
if sub_size <= 0 raise "value_error", "empty sub-structure not supported" end
# align to appropriate sub-size
var align_size = sub_size
if align_size == 3 || align_size > 4 align_size = 4 end
self.align(align_size)
var offset = self.cur_offset # var for closure
# inlcude nested
for subname:type_obj.mapping.keys()
var val = type_obj.mapping[subname]
self.mapping[name+"_"+subname] = [val[0] + (offset << 3), val[1], val[2]]
end
# self.mapping[name] = [offset << 3, sub_size << 3]
self.get_closures[name] = def (b, p) return ctypes.nested_buffer(type_obj, offset + p, b) end
# self.set_closures[name] = def (b, p, v) return ctypes.nested_buffer(type_obj, offset + p, b) end
self.cur_offset += sub_size
end
def get_int_closure(name, size_in_bytes_le_be) # can be 1/2/4
#- abs size -#
var size_in_bytes = size_in_bytes_le_be < 0 ? - size_in_bytes_le_be : size_in_bytes_le_be
var signed = size_in_bytes > 10
size_in_bytes_le_be = size_in_bytes_le_be % 10 # remove sign marker
size_in_bytes = size_in_bytes % 10 # remove sign marker
self.align(size_in_bytes) # force alignment
var offset = self.cur_offset # prepare variable for capture in closure
self.mapping[name] = [offset << 3, size_in_bytes_le_be << 3, signed ? "ctypes_int" : "ctypes_uint"]
#- add closures -#
if signed
self.get_closures[name] = def (b, p) return b.geti(offset + p, size_in_bytes_le_be) end
else
self.get_closures[name] = def (b, p) return b.get(offset + p, size_in_bytes_le_be) end
end
self.set_closures[name] = def (b, p, v) return b.set(offset+ p, v, size_in_bytes_le_be) end
self.cur_offset += size_in_bytes # next offset
end
def get_bitfield_closure(name, size_in_bits) # can be 1..32
var cur_offset = self.cur_offset # prepare variable for capture in closure
var bit_offset = self.bit_offset
self.mapping[name] = [bit_offset + (cur_offset << 3), size_in_bits, "ctypes_uint"]
self.get_closures[name] = def (b, p) return ctypes.get_bits(b, cur_offset + p, bit_offset, size_in_bits) end
self.set_closures[name] = def (b, p, v) return ctypes.set_bits(b, cur_offset+ p, bit_offset, size_in_bits, v) end
self.cur_offset += size_in_bits / 8
self.cur_offset += (self.bit_offset + size_in_bits) / 8
self.bit_offset = (self.bit_offset + size_in_bits) % 8
end
end
ctypes.structure = structure
#-------------------------------------------------------------
#- Structured buffer
#-
#- Inspired from Python's ctypes structure
#-
#- This class is a wrapper around `bytes()` object (actually a subclass)
#- providing virtual members mapped to the ctypes structure.
#-
#- Takes as argument a ctypes.structure and an optional bytes() object
#-------------------------------------------------------------#
class buffer : bytes
var _cs # ctypes_structure associated
def init(cs, b)
if !isinstance(cs, ctypes.structure) raise "value_error", "first argument must be an instance of 'ctypes.structure'" end
self._cs = cs
var size = self._cs.size() # size in bytes of the structure
super(self, bytes).init(size) # init bytes object with reserved size in memory
if isinstance(b, bytes)
self..b
end
self.resize(size) # size once for all to the target size and complete with 00s
end
# accessor for virtual member
def member(name)
return self._cs.get_closures[name](self, 0)
end
# setter for virtual member
def setmember(name, value)
self._cs.set_closures[name](self, 0, value)
end
end
ctypes.buffer = buffer
#-------------------------------------------------------------
#- Nested buffer
#-
#- Nested structures are just pointers to the master bytes() object
#-------------------------------------------------------------#
class nested_buffer
var _cs # ctypes.structure instance for this buffer
var _offset # offset un bytes() to the structure
var _bytes # reference to the overall buffer (by reference)
def init(cs, offset, b)
if !isinstance(cs, ctypes.structure) raise "value_error", "first argument must be an instance of 'ctypes.structure'" end
if type(offset) != 'int' raise "value_error", "second argument must be of type 'int'" end
if !isinstance(b, bytes) raise "value_error", "third argument must be an instance of 'bytes'" end
self._cs = cs
self._offset = offset
self._bytes = b
end
# accessor for virtual member
def member(name)
return self._cs.get_closures[name](self._bytes, self._offset)
end
# setter for virtual member
def setmember(name, value)
self._cs.set_closures[name](self._bytes, self._offset, value)
end
def tostring()
return self._bytes[self._offset..self._offset+self._cs.size()-1].tostring()
end
end
ctypes.nested_buffer = nested_buffer
return ctypes
# ex = [
# [ctypes.u32, "a"],
# [ctypes.u16, "b"],
# [ctypes.i8, "c"],
# [ctypes.i32, "d"], # should infer an empty byte
# ]
# cs = ctypes.structure(ex)
# bb = ctypes.buffer(cs, bytes("aabb"))
# fa = cp.get_int_closure('a', 4)
# fb = cp.get_int_closure('b', 2)
# fc = cp.get_int_closure('c', 1)
# fd = cp.get_int_closure('d', 4)
# b = bytes("04030201AA55FFFF00010001")
# cp.get_closures['a'](b)
# cp.get_closures['b'](b)
# cp.get_closures['c'](b)
# cp.get_closures['d'](b)
# bb = ctypes_buffer(cp, b)
# bb.a = 0x11223344
# bb
# bb.a
# > bb = ctypes_buffer(cp, b)
# > bb.a
# 16909060
# > bb.b
# 21930
# > bb.c
# 255
# > bb.d
# 16777472
# > bb.e
# key_error: e
# stack traceback:
# <native>: in native function
# stdin:11: in function `member`
# stdin:1: in function `main`
# > bb['a']
# 16909060
# > bb['b']
# 21930
# > bb['c']
# 255
# > bb['d']
# 16777472
#-
> fa(b)
16909060
> fb(b)
21930
> fc(b)
255
> fd(b)
16777472
-#
# def get_bits(b, offset_bytes, offset_bits, len_bits)
# if !isinstance(b, bytes) raise "value_error", "first argument must be of type 'bytes'" end
# if offset_bits < 0 || offset_bits > 7 raise "value_error", "offset_bits must be between 0 and 7" end
# if len_bits <= 0 || len_bits > 32 raise "value_error", "length in bits must be between 0 and 32" end
# var ret = 0
# var bit_shift = 0 # bit number to wrtie to
# while (len_bits > 0)
# var block_bits = 8 - offset_bits # bit number to read in current block (block = byte)
# if block_bits > len_bits block_bits = len_bits end
# var mask = ( (1<<block_bits) - 1) << offset_bits
# # print(string.format("mask = %02X", mask))
# ret = ret | ( ((b[offset_bytes] & mask) >> offset_bits) << bit_shift)
# # move the input window
# bit_shift += block_bits
# len_bits -= block_bits
# offset_bits = 0 # start at full next byte
# offset_bytes += 1
# end
# return ret
# end
# Test
# b=bytes("AAFF10")
# assert(get_bits(b, 0, 0, 1) == 0)
# assert(get_bits(b, 0, 1, 1) == 1)
# assert(get_bits(b, 0, 2, 1) == 0)
# assert(get_bits(b, 0, 3, 1) == 1)
# assert(get_bits(b, 0, 0, 2) == 2)
# assert(get_bits(b, 0, 1, 2) == 1)
# assert(get_bits(b, 0, 2, 2) == 2)
# assert(get_bits(b, 0, 0, 8) == 0xAA)
# assert(get_bits(b, 0, 0, 10) == 0x3AA)
# assert(get_bits(b, 0, 2, 8) == 0xEA)
# assert(get_bits(b, 1, 0, 8) == 0xFF)
# assert(get_bits(b, 1, 0, 10) == 0x0FF)
# assert(get_bits(b, 1, 0, 16) == 0x10FF)
# assert(get_bits(b, 1, 7, 4) == 0x01)
# assert(get_bits(b, 1, 7, 6) == 0x21)
# def set_bits(b, offset_bytes, offset_bits, len_bits, val)
# if !isinstance(b, bytes) raise "value_error", "first argument must be of type 'bytes'" end
# if offset_bits < 0 || offset_bits > 7 raise "value_error", "offset_bits must be between 0 and 7" end
# if len_bits <= 0 || len_bits > 32 raise "value_error", "length in bits must be between 0 and 32" end
# while (len_bits > 0)
# var block_bits = 8 - offset_bits # how many bits to write in the current block (block = byte)
# if block_bits > len_bits block_bits = len_bits end
# var mask_val = (1<<block_bits) - 1 # mask to the n bits to get for this block
# var mask_b_inv = 0xFF - (mask_val << offset_bits)
# b[offset_bytes] = (b[offset_bytes] & mask_b_inv) | ((val & mask_val) << offset_bits)
# # move the input window
# val >>= block_bits
# len_bits -= block_bits
# offset_bits = 0 # start at full next byte
# offset_bytes += 1
# end
# return b
# end
# b=bytes("00000000")
# assert(set_bits(b,0,0,1,1) == bytes('01000000'))
# assert(set_bits(b,1,0,1,1) == bytes('01010000'))
# assert(set_bits(b,0,0,1,2) == bytes('00010000'))
# assert(set_bits(b,0,4,1,1) == bytes('10010000'))
# assert(set_bits(b,0,4,1,0) == bytes('00010000'))
# b=bytes("FF000000")
# assert(set_bits(b,0,4,1,0) == bytes('EF000000'))
# assert(set_bits(b,0,4,1,1) == bytes('FF000000'))
# b=bytes("00000000")
# assert(set_bits(b,2,6,1,-1) == bytes('00004000'))
# b=bytes("00000000")
# assert(set_bits(b,2,1,6,-1) == bytes('00007E00'))

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@ -0,0 +1,315 @@
#
# ctype buidings for LVGL
#
# To generate C bindings, do:
# > compile("lvgl_ctypes.be","file")()
#
# and copy/paste output in C format
#
import ctypes
ctypes.print_types()
lv_style_int_t = ctypes.i16
lv_color_t = ctypes.u16 # depends on colors
lv_grad_dir_t = ctypes.u8
lv_opa_t = ctypes.u8
lv_blend_mode_t = ctypes.u8
lv_align_t = ctypes.u8
lv_coord_t = ctypes.i16
lv_bidi_dir_t = ctypes.u8
lv_txt_flag_t = ctypes.u8
lv_text_decor_t = ctypes.u8
lv_font_t = ctypes.u32
uint8_t_1 = ctypes.bf_1
uint8_t_2 = ctypes.bf_2
uint8_t = ctypes.u8
uint16_t = ctypes.u16
uint32_t = ctypes.u32
int32_t = ctypes.i32
ptr = ctypes.u32
lv_point_t = [
[lv_coord_t, "x"],
[lv_coord_t, "y"],
]
lv_point_t = ctypes.structure(lv_point_t, "lv_point_t")
lv_area_t = [
[lv_coord_t, "x1"],
[lv_coord_t, "y1"],
[lv_coord_t, "x2"],
[lv_coord_t, "y2"],
]
lv_area_t = ctypes.structure(lv_area_t, "lv_area_t")
test_t = [
[lv_area_t, "a"],
[lv_area_t, "b"]
]
test_t = ctypes.structure(test_t, "test_t")
lv_draw_rect_dsc_t = [
[lv_style_int_t, "radius"],
#/*Background*/
[lv_color_t, "bg_color"],
[lv_color_t, "bg_grad_color"],
[lv_grad_dir_t, "bg_grad_dir"],
[lv_style_int_t, "bg_main_color_stop"],
[lv_style_int_t, "bg_grad_color_stop"],
[lv_opa_t, "bg_opa"],
[lv_blend_mode_t, "bg_blend_mode"],
#/*Border*/
[lv_color_t, "border_color"],
[lv_style_int_t, "border_width"],
[lv_style_int_t, "border_side"],
[lv_opa_t, "border_opa"],
[lv_blend_mode_t, "border_blend_mode"],
[uint8_t_1, "border_post"],
#/*Outline*/
[lv_color_t, "outline_color"],
[lv_style_int_t, "outline_width"],
[lv_style_int_t, "outline_pad"],
[lv_opa_t, "outline_opa"],
[lv_blend_mode_t, "outline_blend_mode"],
#/*Shadow*/
[lv_color_t, "shadow_color"],
[lv_style_int_t, "shadow_width"],
[lv_style_int_t, "shadow_ofs_x"],
[lv_style_int_t, "shadow_ofs_y"],
[lv_style_int_t, "shadow_spread"],
[lv_opa_t, "shadow_opa"],
[lv_blend_mode_t, "shadow_blend_mode"],
#/*Pattern*/
[ptr, "pattern_image"],
[ptr, "pattern_font"],
[lv_color_t, "pattern_recolor"],
[lv_opa_t, "pattern_opa"],
[lv_opa_t, "pattern_recolor_opa"],
[uint8_t_1, "pattern_repeat"],
[lv_blend_mode_t, "pattern_blend_mode"],
#/*Value*/
[ptr, "value_str"],
[ptr, "value_font"],
[lv_opa_t, "value_opa"],
[lv_color_t, "value_color"],
[lv_style_int_t, "value_ofs_x"],
[lv_style_int_t, "value_ofs_y"],
[lv_style_int_t, "value_letter_space"],
[lv_style_int_t, "value_line_space"],
[lv_align_t, "value_align"],
[lv_blend_mode_t, "value_blend_mode"],
]
lv_draw_rect_dsc_t = ctypes.structure(lv_draw_rect_dsc_t, "lv_draw_rect_dsc_t")
lv_draw_line_dsc_t = [
[lv_color_t, "color"],
[lv_style_int_t, "width"],
[lv_style_int_t, "dash_width"],
[lv_style_int_t, "dash_gap"],
[lv_opa_t, "opa"],
[uint8_t_2, "blend_mode"],
[uint8_t_1, "round_start"],
[uint8_t_1, "round_end"],
[uint8_t_1, "raw_end"],
]
lv_draw_line_dsc_t = ctypes.structure(lv_draw_line_dsc_t, "lv_draw_line_dsc_t")
lv_draw_img_dsc_t = [
[lv_opa_t, "opa"],
[uint16_t, "angle"],
[lv_point_t, "pivot"],
[uint16_t, "zoom"],
[lv_opa_t, "recolor_opa"],
[lv_color_t, "recolor"],
[lv_blend_mode_t, "blend_mode"],
[uint8_t_1, "antialias"],
]
lv_draw_img_dsc_t = ctypes.structure(lv_draw_img_dsc_t, "lv_draw_img_dsc_t")
lv_draw_label_dsc_t = [
[lv_color_t, "color"],
[lv_color_t, "sel_color"],
[lv_color_t, "sel_bg_color"],
[lv_font_t, "font"],
[lv_opa_t, "opa"],
[lv_style_int_t, "line_space"],
[lv_style_int_t, "letter_space"],
[uint32_t, "sel_start"],
[uint32_t, "sel_end"],
[lv_coord_t, "ofs_x"],
[lv_coord_t, "ofs_y"],
[lv_bidi_dir_t, "bidi_dir"],
[lv_txt_flag_t, "flag"],
[lv_text_decor_t, "decor"],
[lv_blend_mode_t, "blend_mode"],
]
lv_draw_label_dsc_t = ctypes.structure(lv_draw_label_dsc_t, "lv_draw_label_dsc_t")
#- --------- lv_mask --------- -#
lv_draw_mask_xcb_t = ptr # callback
lv_draw_mask_type_t = ctypes.u8
lv_draw_mask_line_side_t = ctypes.u8
lv_draw_mask_common_dsc_t = [
[lv_draw_mask_xcb_t, "cb"],
[lv_draw_mask_type_t, "type"],
]
lv_draw_mask_common_dsc_t = ctypes.structure(lv_draw_mask_common_dsc_t, "lv_draw_mask_common_dsc_t")
lv_draw_mask_line_param_cfg_t = [
#/*First point */
[lv_point_t, "p1"],
#/*Second point*/
[lv_point_t, "p2"],
#/*Which side to keep?*/
[uint8_t_2, "side"],
]
lv_draw_mask_line_param_cfg_t = ctypes.structure(lv_draw_mask_line_param_cfg_t, "lv_draw_mask_line_param_cfg_t")
lv_draw_mask_line_param_t = [
#/*The first element must be the common descriptor*/
[lv_draw_mask_common_dsc_t, "dsc"],
[lv_draw_mask_line_param_cfg_t, "cfg"],
#/*A point of the line*/
[lv_point_t, "origo"],
#/* X / (1024*Y) steepness (X is 0..1023 range). What is the change of X in 1024 Y?*/
[int32_t, "xy_steep"],
#/* Y / (1024*X) steepness (Y is 0..1023 range). What is the change of Y in 1024 X?*/
[int32_t, "yx_steep"],
#/*Helper which stores yx_steep for flat lines and xy_steep for steep (non flat) lines */
[int32_t, "steep"],
#/*Steepness in 1 px in 0..255 range. Used only by flat lines. */
[int32_t, "spx"],
#/*1: It's a flat line? (Near to horizontal)*/
[uint8_t_1, "flat"],
#/* Invert the mask. The default is: Keep the left part.
# * It is used to select left/right/top/bottom*/
[uint8_t_1, "inv"],
]
lv_draw_mask_line_param_t = ctypes.structure(lv_draw_mask_line_param_t, "lv_draw_mask_line_param_t")
lv_draw_mask_angle_param_cfg_t = [
[lv_point_t, "vertex_p"],
[lv_coord_t, "start_angle"],
[lv_coord_t, "end_angle"],
]
lv_draw_mask_angle_param_cfg_t = ctypes.structure(lv_draw_mask_angle_param_cfg_t, "lv_draw_mask_angle_param_cfg_t")
lv_draw_mask_angle_param_t = [
#/*The first element must be the common descriptor*/
[lv_draw_mask_common_dsc_t, "dsc"],
[lv_draw_mask_angle_param_cfg_t, "cfg"],
[lv_draw_mask_line_param_t, "start_line"],
[lv_draw_mask_line_param_t, "end_line"],
[uint16_t, "delta_deg"],
]
lv_draw_mask_angle_param_t = ctypes.structure(lv_draw_mask_angle_param_t, "lv_draw_mask_angle_param_t")
lv_draw_mask_radius_param_cfg_t = [
[lv_area_t, "rect"],
[lv_coord_t, "radius"],
[uint8_t_1, "outer"],
]
lv_draw_mask_radius_param_cfg_t = ctypes.structure(lv_draw_mask_radius_param_cfg_t, "lv_draw_mask_radius_param_cfg_t")
lv_sqrt_res_t = [
[uint16_t, "i"],
[uint16_t, "f"],
]
lv_sqrt_res_t = ctypes.structure(lv_sqrt_res_t, "lv_sqrt_res_t")
lv_draw_mask_radius_param_t = [
#/*The first element must be the common descriptor*/
[lv_draw_mask_common_dsc_t, "dsc"],
[lv_draw_mask_radius_param_cfg_t, "cfg"],
[int32_t, "y_prev"],
[lv_sqrt_res_t, "y_prev_x"],
]
lv_draw_mask_radius_param_t = ctypes.structure(lv_draw_mask_radius_param_t, "lv_draw_mask_radius_param_t")
lv_draw_mask_fade_param_cfg_t = [
[lv_area_t, "coords"],
[lv_coord_t, "y_top"],
[lv_coord_t, "y_bottom"],
[lv_opa_t, "opa_top"],
[lv_opa_t, "opa_bottom"],
]
lv_draw_mask_fade_param_cfg_t = ctypes.structure(lv_draw_mask_fade_param_cfg_t, "lv_draw_mask_fade_param_cfg_t")
lv_draw_mask_fade_param_t = [
# /*The first element must be the common descriptor*/
[lv_draw_mask_common_dsc_t, "dsc"],
[lv_draw_mask_fade_param_cfg_t, "cfg"],
]
lv_draw_mask_fade_param_t = ctypes.structure(lv_draw_mask_fade_param_t, "lv_draw_mask_fade_param_t")
lv_draw_mask_map_param_cfg_t = [
[lv_area_t, "coords"],
[ptr, "map"],
]
lv_draw_mask_map_param_cfg_t = ctypes.structure(lv_draw_mask_map_param_cfg_t, "lv_draw_mask_map_param_cfg_t")
lv_draw_mask_map_param_t = [
#/*The first element must be the common descriptor*/
[lv_draw_mask_common_dsc_t, "dsc"],
[lv_draw_mask_map_param_cfg_t, "cfg"],
]
lv_draw_mask_map_param_t = ctypes.structure(lv_draw_mask_map_param_t, "lv_draw_mask_map_param_t")
lv_draw_mask_saved_t = [
[ptr, "param"],
[ptr, "custom_id"],
]
lv_draw_mask_saved_t = ctypes.structure(lv_draw_mask_saved_t, "lv_draw_mask_saved_t")
# Ex:
# bb = ctypes.buffer(test_t, bytes("0101020203030404FFFFFEFEFCFC8080"))
# Ex:
# bb = ctypes.buffer(lv_draw_rect)
#- Ex
bb=ctypes.buffer(lv_draw_line_dsc_t)
bb.color
bb.blend_mode
bb.color = -1
- bytes('FFFF0000000000000003')
bb.blend_mode=3
- bytes('FFFF0000000000000003')
bb.raw_end = 1
- bytes('FFFF0000000000000013')
bb.blend_mode=0
- bytes('FFFF0000000000000010')
lv_draw_line_dsc_t = [
[lv_color_t, "color"],
[lv_style_int_t, "width"],
[lv_style_int_t, "dash_width"],
[lv_style_int_t, "dash_gap"],
[lv_opa_t, "opa"],
[uint8_t_2, "blend_mode"],
[uint8_t_1, "round_start"],
[uint8_t_1, "round_end"],
[uint8_t_1, "raw_end"],
]
-#

View File

@ -0,0 +1,318 @@
/*
xdrv_52_3_berry_native.ino - Berry scripting language, native fucnctions
Copyright (C) 2021 Stephan Hadinger, Berry language by Guan Wenliang https://github.com/Skiars/berry
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#ifdef USE_BERRY
#ifdef USE_LVGL
#include <berry.h>
#include "lvgl.h"
#include "be_lvgl.h"
// Berry easy logging
extern "C" {
extern void berry_log_C(const char * berry_buf, ...);
}
/********************************************************************
* Generated code, don't edit
*******************************************************************/
enum {
ctypes_ptr = 0,
ctypes_uint = 1,
ctypes_int = 2,
ctypes_str = 3,
};
typedef struct be_ctypes_structure_t {
const char * name;
uint16_t offset_bits;
uint16_t len_bits : 13;
uint16_t type : 3;
} be_ctypes_structure_t;
const be_ctypes_structure_t be_lv_point_t[2] = {
{ "x", 0, 16, ctypes_int },
{ "y", 16, 16, ctypes_int },
};
const be_ctypes_structure_t be_lv_area_t[4] = {
{ "x1", 0, 16, ctypes_int },
{ "x2", 32, 16, ctypes_int },
{ "y1", 16, 16, ctypes_int },
{ "y2", 48, 16, ctypes_int },
};
const be_ctypes_structure_t be_test_t[8] = {
{ "a_x1", 0, 16, ctypes_int },
{ "a_x2", 32, 16, ctypes_int },
{ "a_y1", 16, 16, ctypes_int },
{ "a_y2", 48, 16, ctypes_int },
{ "b_x1", 64, 16, ctypes_int },
{ "b_x2", 96, 16, ctypes_int },
{ "b_y1", 80, 16, ctypes_int },
{ "b_y2", 112, 16, ctypes_int },
};
const be_ctypes_structure_t be_lv_draw_rect_dsc_t[43] = {
{ "bg_blend_mode", 96, 8, ctypes_uint },
{ "bg_color", 16, 16, ctypes_uint },
{ "bg_grad_color", 32, 16, ctypes_uint },
{ "bg_grad_color_stop", 72, 16, ctypes_int },
{ "bg_grad_dir", 48, 8, ctypes_uint },
{ "bg_main_color_stop", 56, 16, ctypes_int },
{ "bg_opa", 88, 8, ctypes_uint },
{ "border_blend_mode", 160, 8, ctypes_uint },
{ "border_color", 104, 16, ctypes_uint },
{ "border_opa", 152, 8, ctypes_uint },
{ "border_post", 168, 1, ctypes_uint },
{ "border_side", 136, 16, ctypes_int },
{ "border_width", 120, 16, ctypes_int },
{ "outline_blend_mode", 232, 8, ctypes_uint },
{ "outline_color", 176, 16, ctypes_uint },
{ "outline_opa", 224, 8, ctypes_uint },
{ "outline_pad", 208, 16, ctypes_int },
{ "outline_width", 192, 16, ctypes_int },
{ "pattern_blend_mode", 440, 8, ctypes_uint },
{ "pattern_font", 368, 32, ctypes_uint },
{ "pattern_image", 336, 32, ctypes_uint },
{ "pattern_opa", 416, 8, ctypes_uint },
{ "pattern_recolor", 400, 16, ctypes_uint },
{ "pattern_recolor_opa", 424, 8, ctypes_uint },
{ "pattern_repeat", 432, 1, ctypes_uint },
{ "radius", 0, 16, ctypes_int },
{ "shadow_blend_mode", 328, 8, ctypes_uint },
{ "shadow_color", 240, 16, ctypes_uint },
{ "shadow_ofs_x", 272, 16, ctypes_int },
{ "shadow_ofs_y", 288, 16, ctypes_int },
{ "shadow_opa", 320, 8, ctypes_uint },
{ "shadow_spread", 304, 16, ctypes_int },
{ "shadow_width", 256, 16, ctypes_int },
{ "value_align", 600, 8, ctypes_uint },
{ "value_blend_mode", 608, 8, ctypes_uint },
{ "value_color", 520, 16, ctypes_uint },
{ "value_font", 480, 32, ctypes_uint },
{ "value_letter_space", 568, 16, ctypes_int },
{ "value_line_space", 584, 16, ctypes_int },
{ "value_ofs_x", 536, 16, ctypes_int },
{ "value_ofs_y", 552, 16, ctypes_int },
{ "value_opa", 512, 8, ctypes_uint },
{ "value_str", 448, 32, ctypes_uint },
};
const be_ctypes_structure_t be_lv_draw_line_dsc_t[9] = {
{ "blend_mode", 72, 2, ctypes_uint },
{ "color", 0, 16, ctypes_uint },
{ "dash_gap", 48, 16, ctypes_int },
{ "dash_width", 32, 16, ctypes_int },
{ "opa", 64, 8, ctypes_uint },
{ "raw_end", 76, 1, ctypes_uint },
{ "round_end", 75, 1, ctypes_uint },
{ "round_start", 74, 1, ctypes_uint },
{ "width", 16, 16, ctypes_int },
};
const be_ctypes_structure_t be_lv_draw_img_dsc_t[9] = {
{ "angle", 8, 16, ctypes_uint },
{ "antialias", 104, 1, ctypes_uint },
{ "blend_mode", 96, 8, ctypes_uint },
{ "opa", 0, 8, ctypes_uint },
{ "pivot_x", 24, 16, ctypes_int },
{ "pivot_y", 40, 16, ctypes_int },
{ "recolor", 80, 16, ctypes_uint },
{ "recolor_opa", 72, 8, ctypes_uint },
{ "zoom", 56, 16, ctypes_uint },
};
const be_ctypes_structure_t be_lv_draw_label_dsc_t[15] = {
{ "bidi_dir", 216, 8, ctypes_uint },
{ "blend_mode", 240, 8, ctypes_uint },
{ "color", 0, 16, ctypes_uint },
{ "decor", 232, 8, ctypes_uint },
{ "flag", 224, 8, ctypes_uint },
{ "font", 48, 32, ctypes_uint },
{ "letter_space", 104, 16, ctypes_int },
{ "line_space", 88, 16, ctypes_int },
{ "ofs_x", 184, 16, ctypes_int },
{ "ofs_y", 200, 16, ctypes_int },
{ "opa", 80, 8, ctypes_uint },
{ "sel_bg_color", 32, 16, ctypes_uint },
{ "sel_color", 16, 16, ctypes_uint },
{ "sel_end", 152, 32, ctypes_uint },
{ "sel_start", 120, 32, ctypes_uint },
};
const be_ctypes_structure_t be_lv_draw_mask_common_dsc_t[2] = {
{ "cb", 0, 32, ctypes_uint },
{ "type", 32, 8, ctypes_uint },
};
const be_ctypes_structure_t be_lv_draw_mask_line_param_cfg_t[5] = {
{ "p1_x", 0, 16, ctypes_int },
{ "p1_y", 16, 16, ctypes_int },
{ "p2_x", 32, 16, ctypes_int },
{ "p2_y", 48, 16, ctypes_int },
{ "side", 64, 2, ctypes_uint },
};
const be_ctypes_structure_t be_lv_draw_mask_line_param_t[15] = {
{ "cfg_p1_x", 40, 16, ctypes_int },
{ "cfg_p1_y", 56, 16, ctypes_int },
{ "cfg_p2_x", 72, 16, ctypes_int },
{ "cfg_p2_y", 88, 16, ctypes_int },
{ "cfg_side", 104, 2, ctypes_uint },
{ "dsc_cb", 0, 32, ctypes_uint },
{ "dsc_type", 32, 8, ctypes_uint },
{ "flat", 272, 1, ctypes_uint },
{ "inv", 273, 1, ctypes_uint },
{ "origo_x", 112, 16, ctypes_int },
{ "origo_y", 128, 16, ctypes_int },
{ "spx", 240, 32, ctypes_int },
{ "steep", 208, 32, ctypes_int },
{ "xy_steep", 144, 32, ctypes_int },
{ "yx_steep", 176, 32, ctypes_int },
};
const be_ctypes_structure_t be_lv_draw_mask_angle_param_cfg_t[4] = {
{ "end_angle", 48, 16, ctypes_int },
{ "start_angle", 32, 16, ctypes_int },
{ "vertex_p_x", 0, 16, ctypes_int },
{ "vertex_p_y", 16, 16, ctypes_int },
};
const be_ctypes_structure_t be_lv_draw_mask_angle_param_t[37] = {
{ "cfg_end_angle", 88, 16, ctypes_int },
{ "cfg_start_angle", 72, 16, ctypes_int },
{ "cfg_vertex_p_x", 40, 16, ctypes_int },
{ "cfg_vertex_p_y", 56, 16, ctypes_int },
{ "delta_deg", 664, 16, ctypes_uint },
{ "dsc_cb", 0, 32, ctypes_uint },
{ "dsc_type", 32, 8, ctypes_uint },
{ "end_line_cfg_p1_x", 424, 16, ctypes_int },
{ "end_line_cfg_p1_y", 440, 16, ctypes_int },
{ "end_line_cfg_p2_x", 456, 16, ctypes_int },
{ "end_line_cfg_p2_y", 472, 16, ctypes_int },
{ "end_line_cfg_side", 488, 2, ctypes_uint },
{ "end_line_dsc_cb", 384, 32, ctypes_uint },
{ "end_line_dsc_type", 416, 8, ctypes_uint },
{ "end_line_flat", 656, 1, ctypes_uint },
{ "end_line_inv", 657, 1, ctypes_uint },
{ "end_line_origo_x", 496, 16, ctypes_int },
{ "end_line_origo_y", 512, 16, ctypes_int },
{ "end_line_spx", 624, 32, ctypes_int },
{ "end_line_steep", 592, 32, ctypes_int },
{ "end_line_xy_steep", 528, 32, ctypes_int },
{ "end_line_yx_steep", 560, 32, ctypes_int },
{ "start_line_cfg_p1_x", 144, 16, ctypes_int },
{ "start_line_cfg_p1_y", 160, 16, ctypes_int },
{ "start_line_cfg_p2_x", 176, 16, ctypes_int },
{ "start_line_cfg_p2_y", 192, 16, ctypes_int },
{ "start_line_cfg_side", 208, 2, ctypes_uint },
{ "start_line_dsc_cb", 104, 32, ctypes_uint },
{ "start_line_dsc_type", 136, 8, ctypes_uint },
{ "start_line_flat", 376, 1, ctypes_uint },
{ "start_line_inv", 377, 1, ctypes_uint },
{ "start_line_origo_x", 216, 16, ctypes_int },
{ "start_line_origo_y", 232, 16, ctypes_int },
{ "start_line_spx", 344, 32, ctypes_int },
{ "start_line_steep", 312, 32, ctypes_int },
{ "start_line_xy_steep", 248, 32, ctypes_int },
{ "start_line_yx_steep", 280, 32, ctypes_int },
};
const be_ctypes_structure_t be_lv_draw_mask_radius_param_cfg_t[6] = {
{ "outer", 80, 1, ctypes_uint },
{ "radius", 64, 16, ctypes_int },
{ "rect_x1", 0, 16, ctypes_int },
{ "rect_x2", 32, 16, ctypes_int },
{ "rect_y1", 16, 16, ctypes_int },
{ "rect_y2", 48, 16, ctypes_int },
};
const be_ctypes_structure_t be_lv_sqrt_res_t[2] = {
{ "f", 16, 16, ctypes_uint },
{ "i", 0, 16, ctypes_uint },
};
const be_ctypes_structure_t be_lv_draw_mask_radius_param_t[11] = {
{ "cfg_outer", 120, 1, ctypes_uint },
{ "cfg_radius", 104, 16, ctypes_int },
{ "cfg_rect_x1", 40, 16, ctypes_int },
{ "cfg_rect_x2", 72, 16, ctypes_int },
{ "cfg_rect_y1", 56, 16, ctypes_int },
{ "cfg_rect_y2", 88, 16, ctypes_int },
{ "dsc_cb", 0, 32, ctypes_uint },
{ "dsc_type", 32, 8, ctypes_uint },
{ "y_prev", 128, 32, ctypes_int },
{ "y_prev_x_f", 176, 16, ctypes_uint },
{ "y_prev_x_i", 160, 16, ctypes_uint },
};
const be_ctypes_structure_t be_lv_draw_mask_fade_param_cfg_t[8] = {
{ "coords_x1", 0, 16, ctypes_int },
{ "coords_x2", 32, 16, ctypes_int },
{ "coords_y1", 16, 16, ctypes_int },
{ "coords_y2", 48, 16, ctypes_int },
{ "opa_bottom", 104, 8, ctypes_uint },
{ "opa_top", 96, 8, ctypes_uint },
{ "y_bottom", 80, 16, ctypes_int },
{ "y_top", 64, 16, ctypes_int },
};
const be_ctypes_structure_t be_lv_draw_mask_fade_param_t[10] = {
{ "cfg_coords_x1", 40, 16, ctypes_int },
{ "cfg_coords_x2", 72, 16, ctypes_int },
{ "cfg_coords_y1", 56, 16, ctypes_int },
{ "cfg_coords_y2", 88, 16, ctypes_int },
{ "cfg_opa_bottom", 144, 8, ctypes_uint },
{ "cfg_opa_top", 136, 8, ctypes_uint },
{ "cfg_y_bottom", 120, 16, ctypes_int },
{ "cfg_y_top", 104, 16, ctypes_int },
{ "dsc_cb", 0, 32, ctypes_uint },
{ "dsc_type", 32, 8, ctypes_uint },
};
const be_ctypes_structure_t be_lv_draw_mask_map_param_cfg_t[5] = {
{ "coords_x1", 0, 16, ctypes_int },
{ "coords_x2", 32, 16, ctypes_int },
{ "coords_y1", 16, 16, ctypes_int },
{ "coords_y2", 48, 16, ctypes_int },
{ "map", 64, 32, ctypes_uint },
};
const be_ctypes_structure_t be_lv_draw_mask_map_param_t[7] = {
{ "cfg_coords_x1", 40, 16, ctypes_int },
{ "cfg_coords_x2", 72, 16, ctypes_int },
{ "cfg_coords_y1", 56, 16, ctypes_int },
{ "cfg_coords_y2", 88, 16, ctypes_int },
{ "cfg_map", 104, 32, ctypes_uint },
{ "dsc_cb", 0, 32, ctypes_uint },
{ "dsc_type", 32, 8, ctypes_uint },
};
const be_ctypes_structure_t be_lv_draw_mask_saved_t[2] = {
{ "custom_id", 32, 32, ctypes_uint },
{ "param", 0, 32, ctypes_uint },
};
/********************************************************************/
#endif // USE_LVGL
#endif // USE_BERRY