The assembler uses literal pools to store some constant data in code sections. You can use the
LTORG directive to ensure a literal pool is within range.
The assembler places a literal pool at the end of each section. The end of a section is
defined either by the
END directive at the end of the assembly or by the
AREA directive at the start of the following section. The
END directive at the end of an included file does not signal the end of a
In large sections the default literal pool can be out of range
of one or more
LDR instructions. The offset
from the PC to the constant must be:
- Less than 4KB in A32 or T32 code when the 32-bit
LDRinstruction is available, but can be in either direction.
- Forward and less than 1KB when only the 16-bit T32
LDRinstruction is available.
LDR Rd,=const pseudo-instruction
requires the immediate value to be placed in a literal pool, the
- Checks if the value is available and addressable in any previous literal pools. If so, it addresses the existing constant.
- Attempts to place the value in the next literal pool if it is not already available.
If the next literal pool is out of range, the assembler generates
an error message. In this case you must use the
to place an additional literal pool in the code. Place the
after the failed
and within the valid range for an
You must place literal pools where the processor does not attempt to execute them as instructions. Place them after unconditional branch instructions, or after the return instruction at the end of a subroutine.
Example of placing literal pools
The following example shows the placement of literal pools. The instructions listed as comments are the A32 instructions generated by the assembler.
AREA Loadcon, CODE, READONLY ENTRY ; Mark first instruction to execute start BL func1 ; Branch to first subroutine BL func2 ; Branch to second subroutine stop MOV r0, #0x18 ; angel_SWIreason_ReportException LDR r1, =0x20026 ; ADP_Stopped_ApplicationExit SVC #0x123456 ; ARM semihosting (formerly SWI) func1 LDR r0, =42 ; => MOV R0, #42 LDR r1, =0x55555555 ; => LDR R1, [PC, #offset to ; Literal Pool 1] LDR r2, =0xFFFFFFFF ; => MVN R2, #0 BX lr LTORG ; Literal Pool 1 contains ; literal Ox55555555 func2 LDR r3, =0x55555555 ; => LDR R3, [PC, #offset to ; Literal Pool 1] ; LDR r4, =0x66666666 ; If this is uncommented it ; fails, because Literal Pool 2 ; is out of reach BX lr LargeTable SPACE 4200 ; Starting at the current location, ; clears a 4200 byte area of memory ; to zero END ; Literal Pool 2 is inserted here, ; but is out of range of the LDR ; pseudo-instruction that needs it