I could not able to find anser for this question. Can u able to tell me hen the ARM architecture switch from arm mode to thumb mode and explain all the ays of switching
The answers are in the ARM ARM (ARM Architectural Reference Manual). Look at BX both in the ARM instructions and Thumb instructions, for example. There are more instructions in case this is a homework question.
Also look at the pseudo code for what happens when an exception occurs:
R14_ = return link SPSR_ = CPSR CPSR[4:0] = exception mode number CPSR = 0 if == Reset or FIQ then CPSR = 1 CPSR = 1 if != UNDEF or SWI then CPSR = 1 CPSR = CP15_reg1_EEbit PC = exception vector address
The comments for the pseudo code above (in the ARM ARM) describe another answer to your question.
Now what is not obvious, and possibly misleading in the BX and other instruction descriptions is bx rm does not always switch states. The thumb BX description says "branches between ARM code and Thumb code". As if thumb using it would take you to arm code all the time. The pseudo code paints a slightly better picture though, the lsbit of the address in the register tells you if you are branching to thumb or arm code. The PC pseudo code in the thumb description is misleading though. Thumb instructions are 16 bits and the pc moves forward 16 bits at a time 0x00, 0x02, 0x04, etc. In arm mode the instructions are 32 bits and the pc goes 0x00, 0x04, 0x08, etc. (look at the branch instructions ARM the branch is signed_immed<<2, 0,4,8, etc. thumb branch is signed_immed<<1, 0,2,4,6, etc)
Basically if you have a mixed mode program you want to use BX instead of B, in particular when returning bx lr instead of mov pc,lr. So both thumb and arm functions would use bx lr to return. All four cases are covered, arm calling arm, arm calling thumb, thumb calling arm and thumb calling thumb.
So look for instructions that affect the T bit of the cpsr and/or affect the program counter in a way that causes the program counter to branch somewhere. Also be careful to limit yourself to the specific family/core you are interested in (when reading the ARM ARM), armv4t, armv6, armv6, etc. You probably want to get the TRM (Technical Reference Manual) for the specific core you are using as well. The ARM ARM is very generic and as the number of cores increases over time the specific differences are not clear in the ARM ARM. You need the TRM.
I have many revs of the ARM ARM and all of them contain bugs/errors. Intentional or not I dont know, so some hacking is always required to find out how the core you are using really works.